sábado, 23 de junio de 2012

Digestive Diseases ► NDDIC News - Spring 2012

NDDIC News - Spring 2012
Digestive Diseases: MedlinePlus

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Digestive Diseases News Spring 2012

Microscope photograph of cells that make up the intestinal wall.
Cells that make up the intestinal wall form fingerlike projections (blue) and release antibacterial proteins that keep bacteria (green) at a distance. Image courtesy of Shipra Vaishnava and Lora Hooper.

Protein Creates Partition between Bacteria and the Gut

Originally published in NIH Research Matters
By Vicki Contie
Scientists have identified a microbe-fighting protein that helps create a buffer zone between the inner walls of the intestines and the bacteria within. The finding may explain how helpful bacteria can survive in the digestive tract without triggering an immune attack.
Researchers have long known that about 100 trillion bacteria reside in our intestines. Many of these microbes help us digest food and absorb important nutrients. In the colon, a dense layer of mucus creates a physical barrier between the gut's walls and microbes. The mucus helps to prevent bacterial infection and an immune attack. However, in the small intestine, the mucus layer is thin and permeable to allow absorption of nutrients. Scientists have puzzled over how the mutually beneficial relationship between bacteria and host is maintained.
Dr. Lora Hooper of the University of Texas Southwestern Medical Center and her colleagues suspected that certain immune mechanisms might work in partnership with the mucus layer in the small intestine to keep bacteria at bay. Their investigation, focusing on mice, was funded in part by NIH's National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK).
As reported in the October 14, 2011, issue of Science, the researchers first assessed how microbes are naturally positioned relative to the intestinal lining. Using a technique that makes bacteria glow green and intestinal walls blue, the scientists found a 50-micron zone of separation between the bacteria and the lining. Other researchers had previously found that the colon lining in mice also has a 50-micron bacteria-free zone.
The researchers then studied mice lacking the signaling protein MyD88, which activates the innate immune system. This branch of the immune system recognizes certain molecular patterns in disease-causing microbes. With the innate immune system impaired, bacteria invaded the protective zone and came in direct contact with the intestinal lining.
MyD88 controls the production of several antimicrobial proteins in specialized cells in the intestine's lining. Following this clue, the researchers identified a protein called RegIIIγ as responsible for the bacteria-free zone. Mice lacking RegIIIγ lacked the buffer zone between bacteria and the intestinal wall. The intestinal lining had increased numbers of bacteria adhering to it—a feature sometimes seen with digestive disorders such as inflammatory bowel disease.
"Maintaining a protective zone between you and your bacteria seems to be important for maintaining intestinal health," says Hooper. "Our research shows that RegIIIγ is critical for maintaining what we call the demilitarized zone—the zone of separation between the surface of the intestine and the bulk of bacteria." RegIIIγ and related proteins might represent a potential new target for treating or preventing certain digestive disorders.
The National Digestive Diseases Information Clearinghouse, an information service of the NIDDK, has free fact sheets and easy-to-read booklets about digestive diseases. For more information or to learn how to obtain copies, visit www.digestive.niddk.nih.gov.



NIH Publication No. 12–4552
May 2012
Page last updated June 8, 2012


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From the National Institutes of HealthNational Institutes of Health

Digestive Diseases: MedlinePlus

Digestive Diseases

Also called: Gastrointestinal diseases 
 
 
When you eat, your body breaks food down to a form it can use to build and nourish cells and provide energy. This process is called digestion.
Your digestive system is a series of hollow organs joined in a long, twisting tube. It runs from your mouth to your anus and includes your esophagus, stomach, and small and large intestines. Your liver, gallbladder and pancreas are also involved. They produce juices to help digestion.
There are many types of digestive disorders. The symptoms vary widely depending on the problem. In general, you should see your doctor if you have
  • Blood in your stool
  • Changes in bowel habits
  • Severe abdominal pain
  • Unintentional weight loss
  • Heartburn not relieved by antacids
NIH: National Institute of Diabetes and Digestive and Kidney Diseases 

Illustration of the digestive system

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