Bioscience

Space research may help explain salmonella illness

March 11, 2009

By Flinn Foundation

{Source: Insciences.org] – Salmonella bacteria research from two recent NASA space missions discovered key elements of the bacteria’s disease-causing potential that hold promise for improving ways to fight food-borne infections on Earth.

Salmonella is a leading cause of food poisoning and related illnesses. According to the Centers for Disease Control and Prevention, approximately 40,000 cases of Salmonella infections are reported in the United States each year.

“This research opens up new areas for investigations that may improve food treatment, develop new therapies and vaccines to combat food poisoning in humans here on Earth, and protect astronauts on orbit from infectious disease,” said Julie Robinson, program scientist for the International Space Station at NASA’s Johnson Space Center in Houston.

The Salmonella experiments were flown on shuttle missions to the International Space Station in September 2006 and March 2008.

The 2006 experiment results allowed researchers to identify a molecular “switch” that appears to control Salmonella’s response to spaceflight in unique ways not observed using traditional experimental approaches on Earth. The 2006 results showed that the space environment causes a short-term alteration in Salmonella virulence — the bacteria cultured in space were more virulent than those on Earth.

The 2008 experiment confirmed the 2006 results and demonstrated that a change in the growth environment of the bacteria controls its virulence. There is no evidence that the space-grown bacteria sustained these effects for long periods after returning to Earth.

In addition to finding a leading candidate as to why the bacteria becomes more virulent in space, results from the 2008 experiment helped researchers identify ways to counter the virulence effect. A research team led by Cheryl Nickerson of the Biodesign Institute at Arizona State University in Tempe found that adjusting the ion content of the bacteria’s environment can turn off the rise in virulence caused by spaceflight.

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