Tag Archives: Nitroxyl

New nitric oxide component (HNO) promises new CV help

English: A schematic showing the (laboratory) ...
English: A schematic showing the (laboratory) production of nitric oxide. The setup was made based on an image of the 1949 Popular Mechanics article by Kenneth M. Swezey (titled: The gas that makes you laugh). Images from http://commons.wikimedia.org/wiki/User:Rocket000/SVGs/Chemistry were used to make this image. (Photo credit: Wikipedia)

The substance nitric oxide (NO), one of my favorite topics, is now known to be break-downable into components, one of which has one less electron. It’s known as NO(-) or HNO or nitroxyl, and researchers are finding some exciting new applications for it.

One novel use for nitroxyl is as part of a nanoparticle coating for implanted medical devices that otherwise might trigger dangerous blood clots. The coating is made up of sheets of graphene integrated with two components—haemin and glucose oxidase. “Both work synergistically to catalyze the production of nitroxyl, which can be used inside the blood like nitric oxide, although it contains one less electron. Nitroxyl has been reported as being analogous to nitric oxide in its clot-preventing capability.”

The other use for nitroxyl (HNO) involves its use in treating heart failure. Researchers normally write in very reserved terms about their discoveries, but the author of the passage below seems pretty excited about  the implications of the research. Basically it’s saying that HNO donors can do things that regular NO donors cannot do and may be dramatically more useful in treating cardiovascular disease.

Thus, unlike NO*, HNO can target cardiac sarcoplasmic ryanodine receptors to increase myocardial contractility, can interact directly with thiols and is resistant to both scavenging by superoxide (*O2-) and tolerance development. HNO donors are protective in the setting of heart failure in which NO donors have minimal impact.

It’s cool to see this showing three of my favorite topics coming together: nitric oxide, nanotechnology and heart failure. But then, when all is said and done someday, everything in bioscience will undoubtedly coalesce in one way or another.

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