Re: How does the vicious circle form?

[Guest guest]

Rich,

In my case I am faced with the probability of some other vicious

circle mechanism besides mercury becasue one of my daughters has CFS

nearly identical to my own case, and she has had little or no mercury

exposure. She has never had a mercury filling, and did not start to

contract CFS until she was about 18 years old, a long time after any

Thimerisol vaccinations. And we eat very little fish, and have no

other known mercury exposure. I do have amalgams, but she does not.

I had CFS for about 6 years prior to her contracting CFS, so it was

not an acute type of contagion, or if it was, it was very slow. And

we both have classic cases, fit all criterion.

Here is what my daughter and I do share. Some genetics of course.

And we both have Lyme and both have mycoplasma titers. But I have

other family members positive for Lyme who are asymptomatic or have

only mild symptoms. The entire family (8 people) has the mycoplasma

titers, and only the two of us are sick, although my wife has a light

case of MCS.

I believe that some other factor is depleting the GSH, along with the

Cortisol and other similar hormones. I suspect we must consider ALL

of the genetic issues being uncovered as a composite whole. Systemic

thinking. After all, PWC have a pattern of SNPs related to several

very different biochemical processes, not just those related to GSH.

So what happens when we combine them all in our model of the

pathology? RnasL, Hypercoag, HLA-DR, the 16 WBC SNPs, the CDC

findings, etc. That might provide insights into additional vicious

cycle mechanisms involved in the CFS stalemate.

Additionally, I beleive there are some structural neurological

patterns in the brain involved in CFS, and probably the genes behind

those patterns are unexplored. I suspect the structural genetics

because of the findings related to brain structure abnormalities in

CFS, and also due to my observation that my daughter with CFS has a

similar personality and 'brain type' to myself and many other PWC.

(speaking of brain type in the sense used by www.braintypes.com, which

is postulated to include structural variations).

--Kurt

>

> Hi, all.

>

> I realize that I have not responded to quite a few posts, both on

> and off the list, that have been directed to me in the past few

> weeks, and I'm sorry about that. We've gotten through quite a bit

> of family and household related things around here, but now I'm

> facing the possible prospect of having to put together one or two

> papers for the IACFS conference coming up in January. I still

> haven't heard from the committee as to whether my abstracts have

> been accepted, and I can't wait or I will run out of time to work on

> the papers. So now I'm trying to put together a coherent story on

> the chance that they give me the go-ahead to present my glutathione

> depletion--methylation cycle block hypothesis for the pathogenesis

> of CFS.

>

> In connection with that, I have a new idea I'm kicking around and

> wonder if any of you have any thoughts on it.

>

> As most of you will no doubt recall, for a long time I focused on

> glutathione depletion as a major factor in the pathogenesis of CFS

> for at least a substantial subset of PWCs.

>

> You will also probably recall that for several years I encouraged

> PWCs to try to build their glutathione by various methods, such as

> ingesting nondenatured whey proteins or putting glutathione per se

> into the body by various routes.

>

> And as you will probably also recall, this worked for a few PWCs,

> but for many others, it didn't work, either because they could not

> tolerate these treatments or because, while they helped temporarily

> in quite a few cases, the effects were not permanent if the

> treatment was stopped.

>

> So over the course of time I began to suspect that there was one or

> more vicious circle mechanism blocking the restoration of normal

> levels of glutathione. That's where I was at the time of the last

> AACFS conference in Oct. 2004, when I presented my glutathione

> poster paper.

>

> When I became aware of the work of S. Jill and coworkers in

> autism in early 2005, it dawned on me that one possibility for a

> vicious circle mechanism in CFS might be the one apparently observed

> to be active in many cases of autism, i.e. that glutathione

> depletion was associated with a block earlier in the sulfur

> metabolism, namely in the methylation cycle. I began to pursue the

> parallels between CFS and autism, and learned that there are

> actually quite a few, so this seemed promising.

>

> Initially, I encouraged PWCs to try the three treatments that had

> been found to restore the glutathione level and the methylation

> cycle in the study, namely methylcobalamin, folinic acid and

> trimethylglycine (aka betaine). This didn't work out too well for

> those who tried it, so it appeared that the situation was somewhat

> more complex. After learning from the work of the DAN! project in

> autism, I went on to study Dr. Amy Yasko's treatment approach

> (sorry, Ken, I won't dwell on this too long, but it's important as

> background here). Dr. Yasko's approach seemed to be able to account

> for differences between PWCs based on their individual genetic

> makeup, so this made more sense to me. Also, her approach was more

> ordered in terms of the sequence of doing things, and it also seemed

> more gentle in terms of using smaller amounts of a larger number of

> treatments. So I encouraged PWCs to try Dr. Yasko's approach, and

> quite a few are doing so now, I think at least twenty. I think we

> are seeing that the genetic variations found in CFS are similar to

> those found in autism, and I think we now also understand why

> different PWCs responded differently to the glutathione-building

> efforts, and why hitting PWCs with treatments directed at the

> methylation cycle right away did not work out well, in the light of

> Dr. Yasko's work. I think it will still be a while before we can

> give a very confident evaluation of this treatment for CFS, but I

> continue to be optimistic, based on the few comments that people

> have made so far about their experiences with it.

>

> O.K., now back to the vicious circle mechanism. How does that

> work? The hypothesis as it currently stands is that a load of some

> combination of long term physical, chemical, biological, and/or

> psychological/emotional stressors (differrnt combinations for

> different PWCs, some not involving psychological/emotional stress,

> but others definitely involving it) raises cortisol and epinephrine

> levels, and lowers glutathione levels. When glutathione becomes

> depleted, it impacts the methylation cycle in a couple of ways. One

> is that low glutathione causes the redox conditions to become more

> oxidizing inside the cells, since glutathione is responsible for

> maintaining the usual reducing conditions there. Some of the

> enzymes in the methylation cycle are redox-sensitive, because they

> have cysteine residues, and these have sulfur atoms that can either

> be in the sulfhydryl (reduced) state, or in the disulfide (oxidized)

> state. If they become oxidized, the activity of the enzyme is

> diminished. There is a 10-year-old paper in the literature that

> demonstrates that when glutathione is forced down, methylation

> suffers, so this is pretty well established.

>

> Another way in which glutathione depletion could suppress the

> methylation cycle is by interfering with the conversion of other

> forms of B12 to methylcobalamin, which is the form needed by

> methionine synthase to convert homocysteine to methionine.

> Glutathione is needed to make these conversions.

>

> So I think I can explain why the methylation cycle gets suppressed

> if glutathione goes low. And if the methylation cycle is

> suppressed, the production of cysteine from methionine will slow

> down. Cysteine is normally the rate-limiting amino acid for

> synthesizing glutathione, so now we have the makings of a vicious

> circle.

>

> O.K., that's all history. Now I'm finally getting to the issue at

> hand. When I was in Boston for the Yasko conference in early

> October, I was able to get together for coffee with a couple of

> longstanding CFS internet friends, Lillian Greeley and Sheila

> Statlender. After I explained the above to them, Sheila posed a

> question to me, which was, " O.K., how come you can't break the

> vicious circle just by raising glutathione with supplements? " or

> something to that effect. I told her that some people seemed to be

> able to do that, but most could not, and I didn't know why.

>

> Well, this question has continued to bug me since then. But

> yesterday I think I might have come up with an answer to it, and

> that's what I want to bounce off you. Here's what I suggest: We

> know that one of the jobs that glutathione normally has is to bind

> to toxic heavy metals, such as mercury, and escort them out of the

> body. When glutathione becomes depleted, this is one of the jobs

> that does not get done, and if there is ongoing exposure to heavy

> metals, the body burdens of these metals will rise. It's known in

> chemistry that mercury binds preferentially to sulfur atoms, because

> of the strength of their bond. Sulfur is present in enzymes in the

> methylation cycle. It seems reasonable to believe that as the

> amount of mercury in the body rises, some of it could bind to these

> enzymes. Prof. Deth has shown that the enzyme methionine

> synthase is particularly sensitive to very small concentrations of

> mercury, and that mercury inhibits its operation. So I suggest that

> this is the mousetrap that prevents setting things right for most

> PWCs simply by raising glutathione. The lowering of glutathione thus

> does two things here: it inhibits the activity of enzymes in the

> methylation cycle by allowing the redox to become more oxidizing,

> and then over time it allows mercury to build up, and that compounds

> this inhibition in a more irreversible manner. You may recall that

> there is published work showing that adding supplementary

> glutathione does not very effectively remove mercury that is already

> bound to enzymes in the body.

>

> So I suggest that that is why one has to give direct support to the

> methylation cycle enzymes in order to break the vicious circle, get

> the methylation cycle operating normally again, and restore the

> levels of glutathione on a permanent basis.

>

> There are still some aspects I haven't figured out about this.

> Like, how does the direct support to these enzymes (in the form of

> various forms of folate and cobalamin or B12) get them operating

> again, when they still have mercury bound to them? Maybe it's a

> matter of the cells making new copies of them, and working with

> those, and the others are eventually disassembled and recycled. I'm

> not sure. But anyway, I think this mercury binding concept may

> answer the question that Sheila posed.

>

> If anybody has any thoughts about this, I would be interested.

>

> Rich

>

[Guest guest]

I don't know why... but your question reminds me of a comment someone else on

this list made.

They were paraphrasing Jill St. and the comment was to the efffect that

viruses have some affinity for mercury. Get rid of the viruses and you would get

rid of the mercury...

So I'm wondering if viruses mess with the methylation cycle by means other

than glutathione depletion.. and the chain reaction you have outlined here.

I have no idea if this makes any sense. Just thought I would throw it out

there ...

In any event, I am very glad you reprised your thoughts here because I am one

of those people who seem to be doing well at raising glutathione directly, and

now I will add in support for the methylation cycle.

Question: (for Rich, or those who have been on the list longer than I ), what

tests can one do if one is doing this glutathione/ methylation cycle approach?

Is it sufficient to track intracellular glutathione and are there ways to

measure the performance of the methylation process?

thanks

Louella

---------------------------------

Sponsored Link

Get an Online or Campus degree - Associate's, Bachelor's, or Master's - in less

than one year.

[Guest guest]

Hi Rich,

I have long suspected that mercury is a big player in my illness. It

just seemed that whenever I would have major work done on my teeth, my

health would worsen. I probably had more amalgam put in and taken out

of my mouth, over and over again, than any person on the planet.

I have no idea when I was bitten and developed Lyme and Babesia.

According to LaVoie (sp?), who was one of the earliest MDs to be

involved in Lyme treatment, a person can be infected many years before

symptoms surface. Dr LaVoie unfortunately passed away in 1993.

So, I'm not really clear on what your question is, but in my own case,

mercury is certainly suspect. I also have many SNPs, according to the

Yasko testing.

Thanks for all you are doing to unravel the puzzle that is CFIDS.

Best,

Michele G

>

> Hi, all.

>

> I realize that I have not responded to quite a few posts, both on

> and off the list, that have been directed to me in the past few

> weeks, and I'm sorry about that. We've gotten through quite a bit

> of family and household related things around here, but now I'm

> facing the possible prospect of having to put together one or two

> papers for the IACFS conference coming up in January. I still

> haven't heard from the committee as to whether my abstracts have

> been accepted, and I can't wait or I will run out of time to work on

> the papers. So now I'm trying to put together a coherent story on

> the chance that they give me the go-ahead to present my glutathione

> depletion--methylation cycle block hypothesis for the pathogenesis

> of CFS.

>

> In connection with that, I have a new idea I'm kicking around and

> wonder if any of you have any thoughts on it.

>

> As most of you will no doubt recall, for a long time I focused on

> glutathione depletion as a major factor in the pathogenesis of CFS

> for at least a substantial subset of PWCs.

>

> You will also probably recall that for several years I encouraged

> PWCs to try to build their glutathione by various methods, such as

> ingesting nondenatured whey proteins or putting glutathione per se

> into the body by various routes.

>

> And as you will probably also recall, this worked for a few PWCs,

> but for many others, it didn't work, either because they could not

> tolerate these treatments or because, while they helped temporarily

> in quite a few cases, the effects were not permanent if the

> treatment was stopped.

>

> So over the course of time I began to suspect that there was one or

> more vicious circle mechanism blocking the restoration of normal

> levels of glutathione. That's where I was at the time of the last

> AACFS conference in Oct. 2004, when I presented my glutathione

> poster paper.

>

> When I became aware of the work of S. Jill and coworkers in

> autism in early 2005, it dawned on me that one possibility for a

> vicious circle mechanism in CFS might be the one apparently observed

> to be active in many cases of autism, i.e. that glutathione

> depletion was associated with a block earlier in the sulfur

> metabolism, namely in the methylation cycle. I began to pursue the

> parallels between CFS and autism, and learned that there are

> actually quite a few, so this seemed promising.

>

> Initially, I encouraged PWCs to try the three treatments that had

> been found to restore the glutathione level and the methylation

> cycle in the study, namely methylcobalamin, folinic acid and

> trimethylglycine (aka betaine). This didn't work out too well for

> those who tried it, so it appeared that the situation was somewhat

> more complex. After learning from the work of the DAN! project in

> autism, I went on to study Dr. Amy Yasko's treatment approach

> (sorry, Ken, I won't dwell on this too long, but it's important as

> background here). Dr. Yasko's approach seemed to be able to account

> for differences between PWCs based on their individual genetic

> makeup, so this made more sense to me. Also, her approach was more

> ordered in terms of the sequence of doing things, and it also seemed

> more gentle in terms of using smaller amounts of a larger number of

> treatments. So I encouraged PWCs to try Dr. Yasko's approach, and

> quite a few are doing so now, I think at least twenty. I think we

> are seeing that the genetic variations found in CFS are similar to

> those found in autism, and I think we now also understand why

> different PWCs responded differently to the glutathione-building

> efforts, and why hitting PWCs with treatments directed at the

> methylation cycle right away did not work out well, in the light of

> Dr. Yasko's work. I think it will still be a while before we can

> give a very confident evaluation of this treatment for CFS, but I

> continue to be optimistic, based on the few comments that people

> have made so far about their experiences with it.

>

> O.K., now back to the vicious circle mechanism. How does that

> work? The hypothesis as it currently stands is that a load of some

> combination of long term physical, chemical, biological, and/or

> psychological/emotional stressors (differrnt combinations for

> different PWCs, some not involving psychological/emotional stress,

> but others definitely involving it) raises cortisol and epinephrine

> levels, and lowers glutathione levels. When glutathione becomes

> depleted, it impacts the methylation cycle in a couple of ways. One

> is that low glutathione causes the redox conditions to become more

> oxidizing inside the cells, since glutathione is responsible for

> maintaining the usual reducing conditions there. Some of the

> enzymes in the methylation cycle are redox-sensitive, because they

> have cysteine residues, and these have sulfur atoms that can either

> be in the sulfhydryl (reduced) state, or in the disulfide (oxidized)

> state. If they become oxidized, the activity of the enzyme is

> diminished. There is a 10-year-old paper in the literature that

> demonstrates that when glutathione is forced down, methylation

> suffers, so this is pretty well established.

>

> Another way in which glutathione depletion could suppress the

> methylation cycle is by interfering with the conversion of other

> forms of B12 to methylcobalamin, which is the form needed by

> methionine synthase to convert homocysteine to methionine.

> Glutathione is needed to make these conversions.

>

> So I think I can explain why the methylation cycle gets suppressed

> if glutathione goes low. And if the methylation cycle is

> suppressed, the production of cysteine from methionine will slow

> down. Cysteine is normally the rate-limiting amino acid for

> synthesizing glutathione, so now we have the makings of a vicious

> circle.

>

> O.K., that's all history. Now I'm finally getting to the issue at

> hand. When I was in Boston for the Yasko conference in early

> October, I was able to get together for coffee with a couple of

> longstanding CFS internet friends, Lillian Greeley and Sheila

> Statlender. After I explained the above to them, Sheila posed a

> question to me, which was, " O.K., how come you can't break the

> vicious circle just by raising glutathione with supplements? " or

> something to that effect. I told her that some people seemed to be

> able to do that, but most could not, and I didn't know why.

>

> Well, this question has continued to bug me since then. But

> yesterday I think I might have come up with an answer to it, and

> that's what I want to bounce off you. Here's what I suggest: We

> know that one of the jobs that glutathione normally has is to bind

> to toxic heavy metals, such as mercury, and escort them out of the

> body. When glutathione becomes depleted, this is one of the jobs

> that does not get done, and if there is ongoing exposure to heavy

> metals, the body burdens of these metals will rise. It's known in

> chemistry that mercury binds preferentially to sulfur atoms, because

> of the strength of their bond. Sulfur is present in enzymes in the

> methylation cycle. It seems reasonable to believe that as the

> amount of mercury in the body rises, some of it could bind to these

> enzymes. Prof. Deth has shown that the enzyme methionine

> synthase is particularly sensitive to very small concentrations of

> mercury, and that mercury inhibits its operation. So I suggest that

> this is the mousetrap that prevents setting things right for most

> PWCs simply by raising glutathione. The lowering of glutathione thus

> does two things here: it inhibits the activity of enzymes in the

> methylation cycle by allowing the redox to become more oxidizing,

> and then over time it allows mercury to build up, and that compounds

> this inhibition in a more irreversible manner. You may recall that

> there is published work showing that adding supplementary

> glutathione does not very effectively remove mercury that is already

> bound to enzymes in the body.

>

> So I suggest that that is why one has to give direct support to the

> methylation cycle enzymes in order to break the vicious circle, get

> the methylation cycle operating normally again, and restore the

> levels of glutathione on a permanent basis.

>

> There are still some aspects I haven't figured out about this.

> Like, how does the direct support to these enzymes (in the form of

> various forms of folate and cobalamin or B12) get them operating

> again, when they still have mercury bound to them? Maybe it's a

> matter of the cells making new copies of them, and working with

> those, and the others are eventually disassembled and recycled. I'm

> not sure. But anyway, I think this mercury binding concept may

> answer the question that Sheila posed.

>

> If anybody has any thoughts about this, I would be interested.

>

> Rich

>

[Guest guest]

Hi, Rich.

" rvankonynen " <richvank@...> wrote:

Here's what I suggest: We

> know that one of the jobs that glutathione normally has is to bind

> to toxic heavy metals, such as mercury, and escort them out of the

> body. When glutathione becomes depleted, this is one of the jobs

> that does not get done, and if there is ongoing exposure to heavy

> metals, the body burdens of these metals will rise. It's known in

> chemistry that mercury binds preferentially to sulfur atoms, because

> of the strength of their bond. Sulfur is present in enzymes in the

> methylation cycle. It seems reasonable to believe that as the

> amount of mercury in the body rises, some of it could bind to these

> enzymes.

***I agree. And I think it's important for PWCs to not assume, from past

testing of

mercury " seeming " to show low levels of it in them or from known reasonably low

exposure to it, that this issue has been clearly ruled out. In fact, it still

remains quite

possible that mercury is the glue holding this CFS monster in place for many and

any

confidence in a notion contrary to this, especially if still sick, seems at

least an invalid

position at this point if not an invalid truth.

Prof. Deth has shown that the enzyme methionine

> synthase is particularly sensitive to very small concentrations of

> mercury, and that mercury inhibits its operation. So I suggest that

> this is the mousetrap that prevents setting things right for most

> PWCs simply by raising glutathione.

***This mouse trap idea seems on target and the notion of caboose breaking or

inhibition

might explain how some start to fair well earlier on using nondenatured whey or

another

method for glutathione building as this likely does get front end or more

surface levels

properly functioning within the vicious circle, but then improvement stops,

possibly

indicating a hold-up deeper into the circle, a caboose if you will, which may be

much of

the bound metal that insidiously got into our cells over time when glutathione

was down.

***It sure would be nice to see the word get out at the upcoming IACFS

Conference about

that Swedish groups MRI technology that can detect where mercury is being bound

specifically in people and direct test verifiable evidence like this could

greatly help

substantiate our suspicions about mercury in CFS.

The lowering of glutathione thus

> does two things here: it inhibits the activity of enzymes in the

> methylation cycle by allowing the redox to become more oxidizing,

> and then over time it allows mercury to build up, and that compounds

> this inhibition in a more irreversible manner.

You may recall that

> there is published work showing that adding supplementary

> glutathione does not very effectively remove mercury that is already

> bound to enzymes in the body.

***Yes.

>

> So I suggest that that is why one has to give direct support to the

> methylation cycle enzymes in order to break the vicious circle, get

> the methylation cycle operating normally again, and restore the

> levels of glutathione on a permanent basis.

>

> There are still some aspects I haven't figured out about this.

> Like, how does the direct support to these enzymes (in the form of

> various forms of folate and cobalamin or B12) get them operating

> again, when they still have mercury bound to them?

***The new RNA products might be an aid to this purpose.

Maybe it's a matter of the cells making new copies of them, and working with

> those, and the others are eventually disassembled and recycled. I'm

> not sure. But anyway, I think this mercury binding concept may

> answer the question that Sheila posed.

***Does aluminum have this same profile or similar effect? It seems to come

out in

droves with the autistic kids on methylation protocols.

***

[Guest guest]

One consideration: would there not be a correlation then in the amount of

mercury in the body and the degree of illness? (Or might there be a threshold

beyond which it wouldn't matter how much is present?)

Adrienne

How does the vicious circle form?

Hi, all.

I realize that I have not responded to quite a few posts, both on

and off the list, that have been directed to me in the past few

weeks, and I'm sorry about that. We've gotten through quite a bit

of family and household related things around here, but now I'm

facing the possible prospect of having to put together one or two

papers for the IACFS conference coming up in January. I still

haven't heard from the committee as to whether my abstracts have

been accepted, and I can't wait or I will run out of time to work on

the papers. So now I'm trying to put together a coherent story on

the chance that they give me the go-ahead to present my glutathione

depletion--methylation cycle block hypothesis for the pathogenesis

of CFS.

In connection with that, I have a new idea I'm kicking around and

wonder if any of you have any thoughts on it.

As most of you will no doubt recall, for a long time I focused on

glutathione depletion as a major factor in the pathogenesis of CFS

for at least a substantial subset of PWCs.

You will also probably recall that for several years I encouraged

PWCs to try to build their glutathione by various methods, such as

ingesting nondenatured whey proteins or putting glutathione per se

into the body by various routes.

And as you will probably also recall, this worked for a few PWCs,

but for many others, it didn't work, either because they could not

tolerate these treatments or because, while they helped temporarily

in quite a few cases, the effects were not permanent if the

treatment was stopped.

So over the course of time I began to suspect that there was one or

more vicious circle mechanism blocking the restoration of normal

levels of glutathione. That's where I was at the time of the last

AACFS conference in Oct. 2004, when I presented my glutathione

poster paper.

When I became aware of the work of S. Jill and coworkers in

autism in early 2005, it dawned on me that one possibility for a

vicious circle mechanism in CFS might be the one apparently observed

to be active in many cases of autism, i.e. that glutathione

depletion was associated with a block earlier in the sulfur

metabolism, namely in the methylation cycle. I began to pursue the

parallels between CFS and autism, and learned that there are

actually quite a few, so this seemed promising.

Initially, I encouraged PWCs to try the three treatments that had

been found to restore the glutathione level and the methylation

cycle in the study, namely methylcobalamin, folinic acid and

trimethylglycine (aka betaine). This didn't work out too well for

those who tried it, so it appeared that the situation was somewhat

more complex. After learning from the work of the DAN! project in

autism, I went on to study Dr. Amy Yasko's treatment approach

(sorry, Ken, I won't dwell on this too long, but it's important as

background here). Dr. Yasko's approach seemed to be able to account

for differences between PWCs based on their individual genetic

makeup, so this made more sense to me. Also, her approach was more

ordered in terms of the sequence of doing things, and it also seemed

more gentle in terms of using smaller amounts of a larger number of

treatments. So I encouraged PWCs to try Dr. Yasko's approach, and

quite a few are doing so now, I think at least twenty. I think we

are seeing that the genetic variations found in CFS are similar to

those found in autism, and I think we now also understand why

different PWCs responded differently to the glutathione-building

efforts, and why hitting PWCs with treatments directed at the

methylation cycle right away did not work out well, in the light of

Dr. Yasko's work. I think it will still be a while before we can

give a very confident evaluation of this treatment for CFS, but I

continue to be optimistic, based on the few comments that people

have made so far about their experiences with it.

O.K., now back to the vicious circle mechanism. How does that

work? The hypothesis as it currently stands is that a load of some

combination of long term physical, chemical, biological, and/or

psychological/emotional stressors (differrnt combinations for

different PWCs, some not involving psychological/emotional stress,

but others definitely involving it) raises cortisol and epinephrine

levels, and lowers glutathione levels. When glutathione becomes

depleted, it impacts the methylation cycle in a couple of ways. One

is that low glutathione causes the redox conditions to become more

oxidizing inside the cells, since glutathione is responsible for

maintaining the usual reducing conditions there. Some of the

enzymes in the methylation cycle are redox-sensitive, because they

have cysteine residues, and these have sulfur atoms that can either

be in the sulfhydryl (reduced) state, or in the disulfide (oxidized)

state. If they become oxidized, the activity of the enzyme is

diminished. There is a 10-year-old paper in the literature that

demonstrates that when glutathione is forced down, methylation

suffers, so this is pretty well established.

Another way in which glutathione depletion could suppress the

methylation cycle is by interfering with the conversion of other

forms of B12 to methylcobalamin, which is the form needed by

methionine synthase to convert homocysteine to methionine.

Glutathione is needed to make these conversions.

So I think I can explain why the methylation cycle gets suppressed

if glutathione goes low. And if the methylation cycle is

suppressed, the production of cysteine from methionine will slow

down. Cysteine is normally the rate-limiting amino acid for

synthesizing glutathione, so now we have the makings of a vicious

circle.

O.K., that's all history. Now I'm finally getting to the issue at

hand. When I was in Boston for the Yasko conference in early

October, I was able to get together for coffee with a couple of

longstanding CFS internet friends, Lillian Greeley and Sheila

Statlender. After I explained the above to them, Sheila posed a

question to me, which was, " O.K., how come you can't break the

vicious circle just by raising glutathione with supplements? " or

something to that effect. I told her that some people seemed to be

able to do that, but most could not, and I didn't know why.

Well, this question has continued to bug me since then. But

yesterday I think I might have come up with an answer to it, and

that's what I want to bounce off you. Here's what I suggest: We

know that one of the jobs that glutathione normally has is to bind

to toxic heavy metals, such as mercury, and escort them out of the

body. When glutathione becomes depleted, this is one of the jobs

that does not get done, and if there is ongoing exposure to heavy

metals, the body burdens of these metals will rise. It's known in

chemistry that mercury binds preferentially to sulfur atoms, because

of the strength of their bond. Sulfur is present in enzymes in the

methylation cycle. It seems reasonable to believe that as the

amount of mercury in the body rises, some of it could bind to these

enzymes. Prof. Deth has shown that the enzyme methionine

synthase is particularly sensitive to very small concentrations of

mercury, and that mercury inhibits its operation. So I suggest that

this is the mousetrap that prevents setting things right for most

PWCs simply by raising glutathione. The lowering of glutathione thus

does two things here: it inhibits the activity of enzymes in the

methylation cycle by allowing the redox to become more oxidizing,

and then over time it allows mercury to build up, and that compounds

this inhibition in a more irreversible manner. You may recall that

there is published work showing that adding supplementary

glutathione does not very effectively remove mercury that is already

bound to enzymes in the body.

So I suggest that that is why one has to give direct support to the

methylation cycle enzymes in order to break the vicious circle, get

the methylation cycle operating normally again, and restore the

levels of glutathione on a permanent basis.

There are still some aspects I haven't figured out about this.

Like, how does the direct support to these enzymes (in the form of

various forms of folate and cobalamin or B12) get them operating

again, when they still have mercury bound to them? Maybe it's a

matter of the cells making new copies of them, and working with

those, and the others are eventually disassembled and recycled. I'm

not sure. But anyway, I think this mercury binding concept may

answer the question that Sheila posed.

If anybody has any thoughts about this, I would be interested.

Rich

This list is intended for patients to share personal experiences with each

other, not to give medical advice. If you are interested in any treatment

discussed here, please consult your doctor.

[Guest guest]

> The hypothesis as it currently stands is that a load of some

combination of long term physical, chemical, biological, and/or

psychological/emotional stressors (differrnt combinations for

different PWCs, some not involving psychological/emotional stress,

but others definitely involving it) raises cortisol and epinephrine

levels, and lowers glutathione levels.

> Rich

>

Rich, I appreciate mentioning this exclusion.

It's nice not to have inappropriate factors " impressed " upon your

circumstance.

I remember one " CFS doctor " who talked about improving diet and

didn't like it when I said " These are good suggestions, but why

would you have cause to believe that a diet such as this might help

when a regimen that was superior failed to stave off the illness? "

He fumbled around, but the gist of is that his underlying

assumption was that if one had CFS, they brought it upon themselves

by a bad diet, and as we know, there are plenty of " exemptions " to

show that this is not the case.

-

[Guest guest]

>

> Hi, all.

>

> I realize that I have not responded to quite a few posts, both on

> and off the list, that have been directed to me in the past few

> weeks, and I'm sorry about that. We've gotten through quite a bit

> of family and household related things around here, but now I'm

> facing the possible prospect of having to put together one or two

> papers for the IACFS conference coming up in January. I still

> haven't heard from the committee as to whether my abstracts have

> been accepted, and I can't wait or I will run out of time to work

on

> the papers. So now I'm trying to put together a coherent story on

> the chance that they give me the go-ahead to present my

glutathione

> depletion--methylation cycle block hypothesis for the pathogenesis

> of CFS.

>

Hi Rich

Thanks for continuing with your work on CFS and thought I would just

give you a quick update.

As you know I had a pretty severe case of mercury poisoning and I

had my 13 large amalgams removed nearly 5 years ago and subsequently

chelated with ALA for nearly a year. It didn't really make any

difference to my health but I didn't know about the methylation

cycle then!

Since having some email contact with you this year and being pretty

sure I had a folate problem because of the baby I had in 1973 having

a neural tube defect, in August this year I added in TMG and folinic

acid. I have been taking 1000 mcg methylcobalamin for nearly a year

together with high doses of fatty acids and mitochondrial support as

recommended by Dr Myhill. Previously I had been taking folic acid

but it obviously hadn't done anything for me at all.

I don't seem to have suffered at all from trying to get the

methylation cycle working better, no side effects but I do have new

hair growing all over my scalp which is a really good thing because

I have suffered with male pattern baldness since the 80s. I really

didn't expect that but it seems to be a lovely side effect of the

folinic acid.

Recently I consulted with Dr Myhill and she confirmed that I have a

mild form of Sheehan's Syndrome meaning I now have hypopituitarism

with very little adrenal function left. I am to take steroids for

the rest of my life together with thyroid support. It is highly

likely that I could also have growth hormone issues and this is

going to be tested hopefully.

Generally I feel quite well but it is very frustrating because no

matter what I still run out of energy when I walk or do physical

stuff, nothing has changed in that direction except my blood sugar

control is so much better because of the steroids and I sleep

through the night now. When I crash from doing too much it takes

just a couple of days to recover.

I hope that the methylation cycle support will start to deal with

the high DNA/RNA that was stuck to the mitochondria (Dr M said she

hadn't seen this before in any of her patients) but I feel that I

still have other issues that stop the Krebs cycle from functioning

properly.

Best Wishes

Pam

[Guest guest]

>

> Hi, all.

>

> I realize that I have not responded to quite a few posts, both on

> and off the list, that have been directed to me in the past few

> weeks, and I'm sorry about that. We've gotten through quite a bit

> of family and household related things around here, but now I'm

> facing the possible prospect of having to put together one or two

> papers for the IACFS conference coming up in January. I still

> haven't heard from the committee as to whether my abstracts have

> been accepted, and I can't wait or I will run out of time to work on

> the papers. So now I'm trying to put together a coherent story on

> the chance that they give me the go-ahead to present my glutathione

> depletion--methylation cycle block hypothesis for the pathogenesis

> of CFS.

>

> In connection with that, I have a new idea I'm kicking around and

> wonder if any of you have any thoughts on it.

>

> As most of you will no doubt recall, for a long time I focused on

> glutathione depletion as a major factor in the pathogenesis of CFS

> for at least a substantial subset of PWCs.

>

> You will also probably recall that for several years I encouraged

> PWCs to try to build their glutathione by various methods, such as

> ingesting nondenatured whey proteins or putting glutathione per se

> into the body by various routes.

>

> And as you will probably also recall, this worked for a few PWCs,

> but for many others, it didn't work, either because they could not

> tolerate these treatments or because, while they helped temporarily

> in quite a few cases, the effects were not permanent if the

> treatment was stopped.

>

> So over the course of time I began to suspect that there was one or

> more vicious circle mechanism blocking the restoration of normal

> levels of glutathione. That's where I was at the time of the last

> AACFS conference in Oct. 2004, when I presented my glutathione

> poster paper.

>

> When I became aware of the work of S. Jill and coworkers in

> autism in early 2005, it dawned on me that one possibility for a

> vicious circle mechanism in CFS might be the one apparently observed

> to be active in many cases of autism, i.e. that glutathione

> depletion was associated with a block earlier in the sulfur

> metabolism, namely in the methylation cycle. I began to pursue the

> parallels between CFS and autism, and learned that there are

> actually quite a few, so this seemed promising.

>

> Initially, I encouraged PWCs to try the three treatments that had

> been found to restore the glutathione level and the methylation

> cycle in the study, namely methylcobalamin, folinic acid and

> trimethylglycine (aka betaine). This didn't work out too well for

> those who tried it, so it appeared that the situation was somewhat

> more complex. After learning from the work of the DAN! project in

> autism, I went on to study Dr. Amy Yasko's treatment approach

> (sorry, Ken, I won't dwell on this too long, but it's important as

> background here). Dr. Yasko's approach seemed to be able to account

> for differences between PWCs based on their individual genetic

> makeup, so this made more sense to me. Also, her approach was more

> ordered in terms of the sequence of doing things, and it also seemed

> more gentle in terms of using smaller amounts of a larger number of

> treatments. So I encouraged PWCs to try Dr. Yasko's approach, and

> quite a few are doing so now, I think at least twenty. I think we

> are seeing that the genetic variations found in CFS are similar to

> those found in autism, and I think we now also understand why

> different PWCs responded differently to the glutathione-building

> efforts, and why hitting PWCs with treatments directed at the

> methylation cycle right away did not work out well, in the light of

> Dr. Yasko's work. I think it will still be a while before we can

> give a very confident evaluation of this treatment for CFS, but I

> continue to be optimistic, based on the few comments that people

> have made so far about their experiences with it.

>

> O.K., now back to the vicious circle mechanism. How does that

> work? The hypothesis as it currently stands is that a load of some

> combination of long term physical, chemical, biological, and/or

> psychological/emotional stressors (differrnt combinations for

> different PWCs, some not involving psychological/emotional stress,

> but others definitely involving it) raises cortisol and epinephrine

> levels, and lowers glutathione levels. When glutathione becomes

> depleted, it impacts the methylation cycle in a couple of ways. One

> is that low glutathione causes the redox conditions to become more

> oxidizing inside the cells, since glutathione is responsible for

> maintaining the usual reducing conditions there. Some of the

> enzymes in the methylation cycle are redox-sensitive, because they

> have cysteine residues, and these have sulfur atoms that can either

> be in the sulfhydryl (reduced) state, or in the disulfide (oxidized)

> state. If they become oxidized, the activity of the enzyme is

> diminished. There is a 10-year-old paper in the literature that

> demonstrates that when glutathione is forced down, methylation

> suffers, so this is pretty well established.

>

> Another way in which glutathione depletion could suppress the

> methylation cycle is by interfering with the conversion of other

> forms of B12 to methylcobalamin, which is the form needed by

> methionine synthase to convert homocysteine to methionine.

> Glutathione is needed to make these conversions.

>

> So I think I can explain why the methylation cycle gets suppressed

> if glutathione goes low. And if the methylation cycle is

> suppressed, the production of cysteine from methionine will slow

> down. Cysteine is normally the rate-limiting amino acid for

> synthesizing glutathione, so now we have the makings of a vicious

> circle.

>

> O.K., that's all history. Now I'm finally getting to the issue at

> hand. When I was in Boston for the Yasko conference in early

> October, I was able to get together for coffee with a couple of

> longstanding CFS internet friends, Lillian Greeley and Sheila

> Statlender. After I explained the above to them, Sheila posed a

> question to me, which was, " O.K., how come you can't break the

> vicious circle just by raising glutathione with supplements? " or

> something to that effect. I told her that some people seemed to be

> able to do that, but most could not, and I didn't know why.

>

> Well, this question has continued to bug me since then. But

> yesterday I think I might have come up with an answer to it, and

> that's what I want to bounce off you. Here's what I suggest: We

> know that one of the jobs that glutathione normally has is to bind

> to toxic heavy metals, such as mercury, and escort them out of the

> body. When glutathione becomes depleted, this is one of the jobs

> that does not get done, and if there is ongoing exposure to heavy

> metals, the body burdens of these metals will rise. It's known in

> chemistry that mercury binds preferentially to sulfur atoms, because

> of the strength of their bond. Sulfur is present in enzymes in the

> methylation cycle. It seems reasonable to believe that as the

> amount of mercury in the body rises, some of it could bind to these

> enzymes. Prof. Deth has shown that the enzyme methionine

> synthase is particularly sensitive to very small concentrations of

> mercury, and that mercury inhibits its operation. So I suggest that

> this is the mousetrap that prevents setting things right for most

> PWCs simply by raising glutathione. The lowering of glutathione thus

> does two things here: it inhibits the activity of enzymes in the

> methylation cycle by allowing the redox to become more oxidizing,

> and then over time it allows mercury to build up, and that compounds

> this inhibition in a more irreversible manner. You may recall that

> there is published work showing that adding supplementary

> glutathione does not very effectively remove mercury that is already

> bound to enzymes in the body.

>

> So I suggest that that is why one has to give direct support to the

> methylation cycle enzymes in order to break the vicious circle, get

> the methylation cycle operating normally again, and restore the

> levels of glutathione on a permanent basis.

>

> There are still some aspects I haven't figured out about this.

> Like, how does the direct support to these enzymes (in the form of

> various forms of folate and cobalamin or B12) get them operating

> again, when they still have mercury bound to them? Maybe it's a

> matter of the cells making new copies of them, and working with

> those, and the others are eventually disassembled and recycled. I'm

> not sure. But anyway, I think this mercury binding concept may

> answer the question that Sheila posed.

>

> If anybody has any thoughts about this, I would be interested.

>

> Rich

>*******************************************************************

Hi Rich,

This is a nice theory as it accounts for the tendency of people with

CFS to get worse as Hg accumulates due to poor detoxification. I am

one of those twenty or so who will be trying to fix the methylation

cycle. At the same time, I made great improvements over the years

doing very gentle detoxification of Hg with chlorella and cilantro.

But I am also thinking that we don't really know how PWC's would

function with higher levels of intracellular GSH because taking GSH

IV, IM, or sublingually doesn't guarantee that it gets into the cells

and stays there.

Then there is the issue of whether we are failing to recycle GSH

because of a breakdown in the enzymes responsible for that and thus,

some of us might make enough but be unable to recycle it so we use it

up quickly. It would be really nice if Dr. Amy's profile could test

for this aspect as well.

Finally, I think a big issue in recovery from CFS is that with years

of high peroxynitrate and superoxide radicals, there is such extensive

damage to cell membranes everywhere in the body, that nothing

functions correctly. Live blood analysis of CFS patients invariably

shows misshapen blood cells that clump together in a rouleau pattern.

So even when the methylation cycle is balanced and GSH is normalized,

the body has a huge repair burden, the damaged cell membranes (the

brain of the cells) don't let out the toxins or take in the nutrients,

the hormones don't get transported properly to the nucleus, and the

diet, in most cases, is bringing in just enough antioxidants to

prevent further deterioration. But what will facilitate repair? I

think this last is the reason why I've done so well on the stem cell

product that I mentioned in an earlier post tonight and in a post to

you privately. In order to actually feel a significant improvement, I

had to build lots of new cells and by increasing my circulating

numbers of stem cells, as well as by taking very high levels of

antioxidants and testing to see that I was in a good range, I was able

to rebuild as much as possible without yet knowing my genetic profile.

A recent article in the Townsend talks about the role of GSH in the

immune system maturation of T cells, namely, low GSH resulting in a

shift to TH2 immunity. This helps explain the preponderance of

allergy and the difficulty in healing from viral infections that

plague individuals with CFS and also helps to explain the downward

spiral, for as SIgA drops, allergies increase, and soon the body is

depleting its energy fighting foods all the time, while the stress

hormones are continually provoked into action 'high alert' as yet

another bite of pseudo-pathogenic French toast mobilizes the gut-based

immunity to mount an attack.

Z (aka Janis)

[Guest guest]

It still sounds like there's a missing causative factor(s), such as

viral infection, etc. I mean, people who get mercury poisoning don't

develop CFS. So just because someone might have mercury in them

doesn't really account for CFS developing, and the mercury could

have accumulated after the fact, as well.

That's actuall a pretty good analogy for the Yasko thing. Autism

could be caused by mercury fucking things up, thus resulting in a

decreased methylation cycle, whereas CFS could be the result of a

fucked up methylation cycle from whatever cause, resulting in a

buildup of mercury.

> >

> > Hi, all.

> >

> > I realize that I have not responded to quite a few posts, both

on

> > and off the list, that have been directed to me in the past few

> > weeks, and I'm sorry about that. We've gotten through quite a

bit

> > of family and household related things around here, but now I'm

> > facing the possible prospect of having to put together one or

two

> > papers for the IACFS conference coming up in January. I still

> > haven't heard from the committee as to whether my abstracts have

> > been accepted, and I can't wait or I will run out of time to

work on

> > the papers. So now I'm trying to put together a coherent story

on

> > the chance that they give me the go-ahead to present my

glutathione

> > depletion--methylation cycle block hypothesis for the

pathogenesis

> > of CFS.

> >

> > In connection with that, I have a new idea I'm kicking around

and

> > wonder if any of you have any thoughts on it.

> >

> > As most of you will no doubt recall, for a long time I focused

on

> > glutathione depletion as a major factor in the pathogenesis of

CFS

> > for at least a substantial subset of PWCs.

> >

> > You will also probably recall that for several years I

encouraged

> > PWCs to try to build their glutathione by various methods, such

as

> > ingesting nondenatured whey proteins or putting glutathione per

se

> > into the body by various routes.

> >

> > And as you will probably also recall, this worked for a few

PWCs,

> > but for many others, it didn't work, either because they could

not

> > tolerate these treatments or because, while they helped

temporarily

> > in quite a few cases, the effects were not permanent if the

> > treatment was stopped.

> >

> > So over the course of time I began to suspect that there was one

or

> > more vicious circle mechanism blocking the restoration of normal

> > levels of glutathione. That's where I was at the time of the

last

> > AACFS conference in Oct. 2004, when I presented my glutathione

> > poster paper.

> >

> > When I became aware of the work of S. Jill and coworkers

in

> > autism in early 2005, it dawned on me that one possibility for a

> > vicious circle mechanism in CFS might be the one apparently

observed

> > to be active in many cases of autism, i.e. that glutathione

> > depletion was associated with a block earlier in the sulfur

> > metabolism, namely in the methylation cycle. I began to pursue

the

> > parallels between CFS and autism, and learned that there are

> > actually quite a few, so this seemed promising.

> >

> > Initially, I encouraged PWCs to try the three treatments that

had

> > been found to restore the glutathione level and the methylation

> > cycle in the study, namely methylcobalamin, folinic acid

and

> > trimethylglycine (aka betaine). This didn't work out too well

for

> > those who tried it, so it appeared that the situation was

somewhat

> > more complex. After learning from the work of the DAN! project

in

> > autism, I went on to study Dr. Amy Yasko's treatment approach

> > (sorry, Ken, I won't dwell on this too long, but it's important

as

> > background here). Dr. Yasko's approach seemed to be able to

account

> > for differences between PWCs based on their individual genetic

> > makeup, so this made more sense to me. Also, her approach was

more

> > ordered in terms of the sequence of doing things, and it also

seemed

> > more gentle in terms of using smaller amounts of a larger number

of

> > treatments. So I encouraged PWCs to try Dr. Yasko's approach,

and

> > quite a few are doing so now, I think at least twenty. I think

we

> > are seeing that the genetic variations found in CFS are similar

to

> > those found in autism, and I think we now also understand why

> > different PWCs responded differently to the glutathione-building

> > efforts, and why hitting PWCs with treatments directed at the

> > methylation cycle right away did not work out well, in the light

of

> > Dr. Yasko's work. I think it will still be a while before we

can

> > give a very confident evaluation of this treatment for CFS, but

I

> > continue to be optimistic, based on the few comments that people

> > have made so far about their experiences with it.

> >

> > O.K., now back to the vicious circle mechanism. How does that

> > work? The hypothesis as it currently stands is that a load of

some

> > combination of long term physical, chemical, biological, and/or

> > psychological/emotional stressors (differrnt combinations for

> > different PWCs, some not involving psychological/emotional

stress,

> > but others definitely involving it) raises cortisol and

epinephrine

> > levels, and lowers glutathione levels. When glutathione becomes

> > depleted, it impacts the methylation cycle in a couple of ways.

One

> > is that low glutathione causes the redox conditions to become

more

> > oxidizing inside the cells, since glutathione is responsible for

> > maintaining the usual reducing conditions there. Some of the

> > enzymes in the methylation cycle are redox-sensitive, because

they

> > have cysteine residues, and these have sulfur atoms that can

either

> > be in the sulfhydryl (reduced) state, or in the disulfide

(oxidized)

> > state. If they become oxidized, the activity of the enzyme is

> > diminished. There is a 10-year-old paper in the literature that

> > demonstrates that when glutathione is forced down, methylation

> > suffers, so this is pretty well established.

> >

> > Another way in which glutathione depletion could suppress the

> > methylation cycle is by interfering with the conversion of other

> > forms of B12 to methylcobalamin, which is the form needed by

> > methionine synthase to convert homocysteine to methionine.

> > Glutathione is needed to make these conversions.

> >

> > So I think I can explain why the methylation cycle gets

suppressed

> > if glutathione goes low. And if the methylation cycle is

> > suppressed, the production of cysteine from methionine will slow

> > down. Cysteine is normally the rate-limiting amino acid for

> > synthesizing glutathione, so now we have the makings of a

vicious

> > circle.

> >

> > O.K., that's all history. Now I'm finally getting to the issue

at

> > hand. When I was in Boston for the Yasko conference in early

> > October, I was able to get together for coffee with a couple of

> > longstanding CFS internet friends, Lillian Greeley and Sheila

> > Statlender. After I explained the above to them, Sheila posed a

> > question to me, which was, " O.K., how come you can't break the

> > vicious circle just by raising glutathione with supplements? " or

> > something to that effect. I told her that some people seemed to

be

> > able to do that, but most could not, and I didn't know why.

> >

> > Well, this question has continued to bug me since then. But

> > yesterday I think I might have come up with an answer to it, and

> > that's what I want to bounce off you. Here's what I suggest:

We

> > know that one of the jobs that glutathione normally has is to

bind

> > to toxic heavy metals, such as mercury, and escort them out of

the

> > body. When glutathione becomes depleted, this is one of the

jobs

> > that does not get done, and if there is ongoing exposure to

heavy

> > metals, the body burdens of these metals will rise. It's known

in

> > chemistry that mercury binds preferentially to sulfur atoms,

because

> > of the strength of their bond. Sulfur is present in enzymes in

the

> > methylation cycle. It seems reasonable to believe that as the

> > amount of mercury in the body rises, some of it could bind to

these

> > enzymes. Prof. Deth has shown that the enzyme

methionine

> > synthase is particularly sensitive to very small concentrations

of

> > mercury, and that mercury inhibits its operation. So I suggest

that

> > this is the mousetrap that prevents setting things right for

most

> > PWCs simply by raising glutathione. The lowering of glutathione

thus

> > does two things here: it inhibits the activity of enzymes in

the

> > methylation cycle by allowing the redox to become more

oxidizing,

> > and then over time it allows mercury to build up, and that

compounds

> > this inhibition in a more irreversible manner. You may recall

that

> > there is published work showing that adding supplementary

> > glutathione does not very effectively remove mercury that is

already

> > bound to enzymes in the body.

> >

> > So I suggest that that is why one has to give direct support to

the

> > methylation cycle enzymes in order to break the vicious circle,

get

> > the methylation cycle operating normally again, and restore the

> > levels of glutathione on a permanent basis.

> >

> > There are still some aspects I haven't figured out about this.

> > Like, how does the direct support to these enzymes (in the form

of

> > various forms of folate and cobalamin or B12) get them operating

> > again, when they still have mercury bound to them? Maybe it's a

> > matter of the cells making new copies of them, and working with

> > those, and the others are eventually disassembled and recycled.

I'm

> > not sure. But anyway, I think this mercury binding concept may

> > answer the question that Sheila posed.

> >

> > If anybody has any thoughts about this, I would be interested.

> >

> > Rich

>

>*******************************************************************

> Hi Rich,

> This is a nice theory as it accounts for the tendency of people

with

> CFS to get worse as Hg accumulates due to poor detoxification. I

am

> one of those twenty or so who will be trying to fix the methylation

> cycle. At the same time, I made great improvements over the years

> doing very gentle detoxification of Hg with chlorella and

cilantro.

> But I am also thinking that we don't really know how PWC's would

> function with higher levels of intracellular GSH because taking GSH

> IV, IM, or sublingually doesn't guarantee that it gets into the

cells

> and stays there.

> Then there is the issue of whether we are failing to recycle GSH

> because of a breakdown in the enzymes responsible for that and

thus,

> some of us might make enough but be unable to recycle it so we use

it

> up quickly. It would be really nice if Dr. Amy's profile could

test

> for this aspect as well.

> Finally, I think a big issue in recovery from CFS is that with

years

> of high peroxynitrate and superoxide radicals, there is such

extensive

> damage to cell membranes everywhere in the body, that nothing

> functions correctly. Live blood analysis of CFS patients

invariably

> shows misshapen blood cells that clump together in a rouleau

pattern.

> So even when the methylation cycle is balanced and GSH is

normalized,

> the body has a huge repair burden, the damaged cell membranes (the

> brain of the cells) don't let out the toxins or take in the

nutrients,

> the hormones don't get transported properly to the nucleus, and the

> diet, in most cases, is bringing in just enough antioxidants to

> prevent further deterioration. But what will facilitate repair? I

> think this last is the reason why I've done so well on the stem

cell

> product that I mentioned in an earlier post tonight and in a post

to

> you privately. In order to actually feel a significant

improvement, I

> had to build lots of new cells and by increasing my circulating

> numbers of stem cells, as well as by taking very high levels of

> antioxidants and testing to see that I was in a good range, I was

able

> to rebuild as much as possible without yet knowing my genetic

profile.

>

> A recent article in the Townsend talks about the role of GSH in the

> immune system maturation of T cells, namely, low GSH resulting in a

> shift to TH2 immunity. This helps explain the preponderance of

> allergy and the difficulty in healing from viral infections that

> plague individuals with CFS and also helps to explain the downward

> spiral, for as SIgA drops, allergies increase, and soon the body is

> depleting its energy fighting foods all the time, while the stress

> hormones are continually provoked into action 'high alert' as yet

> another bite of pseudo-pathogenic French toast mobilizes the gut-

based

> immunity to mount an attack.

>

> Z (aka Janis)

>