Fw: Found this on CNN...

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From: & Robynn <nebneb@...>

>>

>> I do not know what this means for Lyme, but I found it good reading

>> anyway...

>>

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>> WASHINGTON (AP) -- In a discovery that could lead to powerful new

vaccines

>> and antibiotics, researchers have isolated a key gene that bacteria use

to

>> launch killer infections.

>>

>> Researchers at the University of California, Santa Barbara, have

>> demonstrated in laboratory studies that removing or inactivating a gene

>> called DAM can disarm a strain of salmonella, bacteria that cause food

>> poisoning in humans.

>>

>> " We've uncovered a genetic master switch that controls bacterial

>> infection, " said Dr. J. Mahan, the study's lead author and a UCSB

>> professor. " When we knock out this switch, the bacterium is completely

>> disabled in its ability to cause disease. "

>>

>> The study is to be published Friday in the journal Science.

>>

>> Mahan said the DAM gene was found through a five-year process of

examining

>> bacterial genes that are turned on at the start of an infection in a host

>> animal. Often these genes are quiet in laboratory dishes and go into

>action

>> only when the pathogen is starting an infection inside an animal.

>>

>> " Bacterial pathogens act like a Trojan horse -- they hide their weapons

>> until they are within an animal, " said Mahan. As a result, some bacterial

>> genes that cause infection " are turned on inside a mouse and off outside

a

>> mouse, " he said.

>>

>> The UCSB researchers, using salmonella, found that the DAM gene made a

>> protein that turned on other genes that started the infection process.

>>

>> When strains of salmonella were created that permanently disabled the DAM

>> gene, the microbe could not cause disease in mice.

>>

>> The altered bacteria also acted like a vaccine, causing the mouse's

immune

>> system to make antibodies that would attack salmonella, said Mahan.

>>

>> " Mice immunized with this crippled strain of salmonella were completely

>> protected from infection, " he said. Some of the mice were injected with a

>> salmonella dose 10,000 times more powerful than a dose that is lethal to

>> half of all mice. None of the animals developed disease, said Mahan.

>>

>> There are 2,500 strains of salmonella that cause diseases ranging from

>food

>> poisoning to typhoid fever. Poorly cooked poultry and eggs are a common

>> source of salmonella food poisoning, and some experts have estimated that

>> up to 4 million Americans are affected annually.

>>

>> A variety of other bacteria pathogens, including cholera, plague and

>> Shigella dysentery, also have DAM genes, raising the possibility that

>those

>> diseases could also be disabled by blocking DAM.

>>

>> Mahan said it may be possible to make an antibiotic based on the DAM

gene.

>> If a chemical could be found that blocks the action of the protein made

by

>> DAM, then it might prevent bacteria from continuing the infection

process,

>> he said.

>>

>> " This is a breakthrough discovery, " said Dr. Philip Hanna, a

>microbiologist

>> at Duke University Medical Center. " They have found a master switch that

>> turns on virulence. "

>>

>> If further study proves that disabling the DAM genes will protect humans

>> from bacterial infection, it could lead to a new class of antibiotics and

>> to a new type of vaccine, Hanna said.

>>

>> But Dr. Regina Rabinovich, a scientist at the National Institute of

>Allergy

>> and Infectious Diseases, a part of the National Institutes of Health,

>> cautioned that the value of the DAM research will not be known until it

is

>> tested and proven to work in humans.

>>

>> " The mouse has not been a very good model for what will happen with

>> salmonella in humans, " said Rabinovich.

>>

>> Medical researchers are scrambling to find new ways of combating

>infections

>> that now claim about 17 million lives annually worldwide -- almost three

>> times the death toll of cancer. Many antibiotics that once worked are no

>> longer effective against evolving strains of bacteria. Even vancomycin,

>the

>> " last hope " antibiotic that once was invariably effective, has recently

>> encountered germs it cannot control.

>>

>> " We are about to re-enter the pre-antibiotic era because there are

>pathogen

>> strains now that are resistant to every available antibiotic, " said

Mahan.

>> " This (altering the DAM gene) may buy us some time. "

>>

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