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NSF Press Release

 


NSF PR 00-47 - June 20, 2000

Media contact:

 Amber Jones

 (703) 292-8070

 aljones@nsf.gov

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 Donald Burland

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 dburland@nsf.gov

This material is available primarily for archival purposes. Telephone numbers or other contact information may be out of date; please see current contact information at media contacts.

New Test For Presence of Nitric Oxide Could Improve Medical Knowledge

Researchers supported by the National Science Foundation (NSF) have developed a means to detect nitric oxide that could help improve scientists' understanding of this molecule's role in neurological signaling and other biological functions.

Stephen Lippard, Katherine J. Franz and Nisha Singh of the Massachusetts Institute of Technology synthesized a nitric oxide sensing system that consists of a molecule whose fluorescence switches on when nitric oxide is present. They reported their findings in the June 16 international edition of the German publication Angewande Chemie.

Nitric oxide plays a major role in the regulation of blood pressure, the prevention of blood clotting, the dilation of blood vessels and the destruction of pathogens. It is used extensively in medical treatment; for example, nitroglycerin ameliorates the pain of angina by supplying nitric oxide to the blood vessels that supply the heart. The popular drug Viagra controls penile erection by regulating nitric oxide.

To understand the mechanism of nitric oxide's action in the body, medical researchers needed a sensitive means of detecting the molecule in vivo. An effective sensor system had to be sensitive only to nitric oxide, even in the presence of other chemically active molecules such as oxygen, and able to measure the minute concentrations normally found in living cells.

The new sensor consists of a central cobalt atom surrounded by two organic "arms." In the absence of nitric oxide, the molecule fluoresces only very weakly. When nitric oxide is present, it chemically bonds to the cobalt atom, causing a molecular rearrangement that results in a substantial, measurable increase in fluorescence. This indicator does not respond to other molecules, such as oxygen.

"Many of the nitric oxide detectors used today are based on identification of its decomposition products, nitrite and nitrate," said Lippard. "In contrast, our fluorescence indicator reacts directly with nitric oxide. It has the potential to track the formation of nitric oxide in real time."

The scientists are now working on the development of more sensitive, water-soluble sensors with a stronger fluorescence response. "With this future generation of sensors it should be possible to measure nitric oxide in cell cultures. In the distant future, applications to understand nitric oxide-triggered neurobiological events in living organisms, and possibly even medical applications, could emerge," Lippard adds.

-NSF-

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