Tales from the crypts: Cells battle germs.Consider them the guardian angels of your small intestine small intestine Long, narrow, convoluted tube in which most digestion takes place. It extends 22–25 ft (6.7–7.6 m), from the stomach to the large intestine. . Long known as Paneth cells, these sentries inhabit tiny pits in the intestine called crypts. Scientists now offer the best evidence yet that these cells defend other cells in the crypts by discharging bacteria-killing bursts of enzymes and other molecules. Protecting the crypt's so-called stem cells stem cells, unspecialized human or animal cells that can produce mature specialized body cells and at the same time replicate themselves. Embryonic stem cells are derived from a blastocyst (the blastula typical of placental mammals; see embryo), which is very young , which replenish the lining of the small intestine, is vital. With a surface area about the size of a football field, the lining is continually damaged by digestive enzymes Digestive enzymes Molecules that catalyze the breakdown of large molecules (usually food) into smaller molecules. Mentioned in: Heartburn digestive enzymes and bile. It must therefore turn over rapidly, every few days in a person. It's up to the stem cells, which dwell just above the Paneth cells, to spawn progeny that migrate onto the tips of fingerlike villi villi: see digestive system. that line the intestine and absorb nutrients. For years, scientists have amassed a case that Paneth cells safeguard stem cells. They initially found that Paneth cells contain stores of lysozyme lysozyme: see immunity. Lysozyme An enyme that was first identified and named by Alexander Fleming, who recognized its bacteriolytic properties. , an enzyme that breaks down bacterial cell walls. More recently, they documented similar accumulations of defensins, small proteins with antimicrobial powers. Still, it remained unclear whether Paneth cells use these as weapons to destroy germs. Andre J. Ouellette of the University of California The University of California has a combined student body of more than 191,000 students, over 1,340,000 living alumni, and a combined systemwide and campus endowment of just over $7.3 billion (8th largest in the United States). , Irvine and his colleagues had hoped to study Paneth cells by growing them in petri dishes, but the cells failed to thrive. The investigators instead used intestinal tissue from mice and exposed the tissue's intact crypts to various microbes and microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. molecules. Bacteria, including the food-poisoning culprits Escherichia COil and Salmonella typhimuriurn, trigger the Paneth cells to 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. large amounts of defensins and other molecules, the researchers report in the August NATURE IMMUNOLOGY. The work of Ouellette and his colleagues "is a successful culmination of efforts to understand Paneth cell function," comments Tomas Ganz of the University of California, Los Angeles UCLA comprises the College of Letters and Science (the primary undergraduate college), seven professional schools, and five professional Health Science schools. Since 2001, UCLA has enrolled over 33,000 total students, and that number is steadily rising. in the same journal. "They determine that Paneth cells are the sentinels of crypts: they react to bacteria by releasing defensins in more than sufficient quantity to kill." While Paneth cells appear to protect crypts from bacteria, biologists still must investigate whether the cells' sterilizing power extends into the general cavity of the small intestine. Full of nutrients that an animal is trying to absorb, the small intestine would seem to offer a pleasant home to bacteria and other microorganisms. Yet compared with the colon, the small intestine harbors significantly fewer microbes. Paneth cells may be the reason, suggests Charles Bevins of the Cleveland Clinic Foundation. He notes that biologists are also investigating whether problems with Paneth cells lead to inflammatory diseases within the small intestine. Ouellette's team is now trying to identify the bacteria-detecting surface molecules on Paneth cells. The researchers will also examine why their initial experiments found that Paneth cells don't react to fungi or other nonbacterial microbes. "We've just started to look at the responses of these cells," notes Donald P. Satchell, one of the study's authors. |
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