Bacteria Provide a Frontline Defense.With some genetic manipulation, scientists have turned mild-mannered bacteria into stout defenders against disease. Researchers have learned in the past 2 decades how to entice bacteria naturally found in the body to make compounds that fight a variety of ailments. The technique has been limited, however, because these compounds usually stay anchored to a bacterium's surface. Two studies from Europe now demonstrate that the bacteria can secrete secrete /se·crete/ (se-kret´) to elaborate and release a secretion. se·crete v. To generate and separate a substance from cells or bodily fluids. such agents--freeing them to more effectively fight disease. So far, the approach works in mice and rats. If it succeeds in people, the technique could enlist bacteria as frontline troops against infection. The technology could also prove less expensive than another potential strategy--mass production of antibodies in a laboratory--which is being explored in current anti-infection research, says Vincent A. Fischetti, a microbiologist at Rockefeller University in New York City New York City: see New York, city. New York City City (pop., 2000: 8,008,278), southeastern New York, at the mouth of the Hudson River. The largest city in the U.S. . Researchers in Italy report success in quickly ridding female rats of Candida albicans Candida albicans, n a pathogenic yeast, which is the causal agent of thrush, vaginal infections, and systemic candidiasis. Candida albicans , a fungus that causes vaginal yeast infections Vaginal yeast infection An overgrowth of fungus in the vaginal area. Mentioned in: Jock Itch . C. albicans also causes thrush, a sore throat Sore Throat Definition Sore throat, also called pharyngitis, is a painful inflammation of the mucous membranes lining the pharynx. It is a symptom of many conditions, but most often is associated with colds or influenza. prevalent in people with compromised immune systems. The scientists genetically engineered genetically engineered adjective Recombinant, see there Streptococcus streptococcus (strĕp'təkŏk`əs), any of a group of gram-positive bacteria, genus Streptococcus, some of which cause disease. gordonii, a bacterium routinely found in people's mouths, either to display on its surface an antibody that's lethal to the yeast or to secrete that antibody. In a test of 25 female rats with the yeast infection yeast infection: see candidiasis. Yeast infection An infection mainly caused by fungi of the genus Candida. Although members of the genus Candida , the rats that received three infusions of the secreting bacteria into their vaginas took less than a week to heal, as did others treated with the common antifungal drug fluconozole. Rats receiving the bacteria that simply display the antibody on their surfaces took 9 days to get well. Other rats treated with a version of the bacterium with inconsequential genetic changes took 21 days to heal, as did untreated rats, the researchers report in the October NATURE BIOTECHNOLOGY. The rats were considered healed when their vaginal concentration of C. albicans had dropped to one-fifth the original amount. The antibody produced by the engineered bacteria locks onto molecular receptors on C. albicans' cell wall and kills the fungus, says study coauthor Luciano Polonelli, a microbiologist at the University of Parma History The school was founded during XI century [1]as a center for study of the general liberal arts curriculum of the medieval period. The faculties of law and medicine were added in thirteenth century. in Italy. Fischetti's team, which developed the technique of getting S. gordonii to display new proteins on its surface, has made a strep throat Strep Throat Definition Streptococcal sore throat, or strep throat as it is more commonly called, is an infection of the mucous membranes lining the pharynx. Sometimes the tonsils are also infected (tonsillitis). vaccine that they plan to test soon in people. The Italian study is the first to show an antimicrobial agent effectively secreted from bacteria in a living host, says Fischetti. By releasing these antibodies, the bacteria make them more mobile than anchored proteins so they can reach and dispatch the yeast more readily, he says. The mucus-lined surfaces of the mouth, throat, or vagina offer obvious proving grounds for the new technology, says Fischetti. About 90 percent of infectious diseases breach the body via the mucus membranes, he notes. Reducing the number of infectious agents at these sites would boost the immune system's ability to fight off disease, he says. Because S. gordonii's natural environment is the mouth, not the vagina, the rat findings suggest that genetically tweaked bacteria could serve as "workhorses" delivering novel antibacterial factors to specific body locations that are not necessarily their home, says Dennis F. Mangan of the National Institute of Dental and Craniofacial Research The National Institute of Dental and Craniofacial Research (NIDCR), is part of the U.S. National Institutes of Health, and as such its function is to the promote the general health of the American people, by improving their oral, dental and craniofacial health. in Bethesda, Md. It's not yet clear how long the tiny bacteria can pump out agents toxic to other microbes. Bacteria modified and reintroduced into their home environment might have longer staying power than bacteria placed in an agreeable but unfamiliar site in the body, Fischetti says. In other work pitting bacteria against disease, Lothar Steidler and his colleagues at Ghent University in Belgium genetically engineered Lacococcus lactis bacteria to make and secrete interleukin-10, an anti-inflammatory agent. The researchers fed the modified bacteria to mice with inflammatory bowel disease inflammatory bowel disease n. Abbr. IBD Any of several incurable and debilitating diseases of the gastrointestinal tract characterized by inflammation and obstruction of parts of the intestine. , which causes diarrhea and pain. Within a month, the treatment reduced symptoms in the mice roughly by half, whereas untreated mice with the disease improved only slightly, the researchers reported in the Aug. 25 SCIENCE. The two studies represent "just the beginning of an exciting and potentially generally applicable strategy" for delivering protectants to mucosal surfaces, say Kevin J. Whaley and Larry Zeitlin of Epicyte Pharmaceuticals in San Diego, also in the October NATURE BIOTECHNOLOGY. |
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