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June 9, 2006|Volume 34, Number 30|Five-Week Issue


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Scientists find way to use intestinal
cells to stop bacteria-related diarrhea

Turning on a surface receptor in cells lining the intestinal wall can halt the often deadly diarrhea brought on by the bacteria V. cholera and E. coli, according to a School of Medicine study published May 15 in the Proceedings of the National Academy of Sciences.

Secretory diarrhea, which occurs when the small and large intestine secrete salt and water at rates higher than the intestine can reabsorb, is a major killer of children under five years of age worldwide. Unless stopped, the diarrhea can rapidly produce massive losses of fluid and salt and result in heart failure.

"Despite new therapies, mortality from acute diarrheal illnesses remains in the millions each year," note authors Dr. Steven Hebert, professor and chair of the Department of Cellular and Molecular Physiology, and Dr. John Geibel, professor in the Department of Surgery. "Development of specific agents to target this intestinal receptor could provide a new approach for treating this debilitating and life-threatening diarrhea."

The acute diarrhea associated with infantile diarrhea, cholera or foreign travel is a result of eating food or drinking water contaminated with bacteria. The bacteria produce a toxin that over stimulates the intestinal cell's normal secretory machinery. Outbreaks of cholera from contaminated food and water are often seen following earthquakes, tsunamis, floods and typhoons/hurricanes. Travelers' diarrhea, which is caused by the toxin STa, can affect individuals traveling to areas with less highly developed hygiene and sanitation.

Hebert, Geibel and their colleagues found that activating a calcium/nutrient sensing receptor in the intestinal lining stopped the fluid secretions caused by cholera and STa toxins. They report that activation of the receptor halts fluid secretion by increasing the destruction of cell signaling molecules that are activated by the bacterial toxins.

The receptor detects changes in calcium and other nutrients like amino acids in the fluid bathing the exterior of cells. The investigators tried raising the calcium level and adding specific receptor activators to the fluid bathing the intestines. Both methods were effective in halting toxin-induced fluid secretion in animals.

-- By Jacqueline Weaver


T H I SW E E K ' SS T O R I E S

PBS news anchor elected as trustee

Ceremony formally marks Rose Center opening

New Peabody hall offering high-tech lessons about Earth and space

Scientists believe that green tea may be key to 'Asian paradox'

COMMENCEMENT 2006

ENDOWED PROFESSORSHIPS


New exhibit asks: What did Shakespeare really look like?

Samples from ocean floor at the North Pole yield clues . . .



MEDICAL SCHOOL NEWS


Arts & Ideas festival adds a dash of New Orleans spice

Art & Architecture Library taking up temporary residence on Crown Street

Forum explores governmental budgetary processes in China

Library events celebrate aviator and author Anne Morrow Lindberg

Making the Grade



Uncovering Ingrained Attitudes About Obesity

Artist's exhibit at Slifka Center will examine complexity of faith

Jaroslav Pelikan, renowned scholar of church history

Event will bring bellringers from near and far to the Yale campus

Gigantic balloon creatures to invade Hall of Dinosaurs

Celebrated performer to teach summer flute institute

Drama production will highlight work by New Haven students

Reading aloud

Campus Notes


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