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Researchers Put The Bite On Mosquitoes

Date:
January 18, 2008
Source:
University of Arizona
Summary:
Few things sting like a mosquito's bite -- especially if that bite carries a disease such as malaria, yellow fever, Dengue fever or West Nile virus. But if a team of University of Arizona researchers has its way, one day mosquito bites may prove deadly to the mosquitoes.
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Close-up of an Aedes aegypti female mosquito sucking blood from a man's arm. Only the female mosquitos bite.
Credit: James Gathany, Centers for Disease Control and Prevention, Atlanta, GA

Few things sting like a mosquito's bite--especially if that bite carries a disease such as malaria, yellow fever, Dengue fever or West Nile virus. But if researchers from The University of Arizona in Tucson have their way, one day mosquito bites may prove deadly to the mosquitoes as well.

"Our goal is to turn the female mosquito's blood meal into the last meal she ever eats," said project leader Roger L. Miesfeld, a professor of biochemistry and molecular biophysics in UA's College of Science and a member of BIO5 and the Arizona Cancer Center.

Other UA researchers involved with the project include Patricia Y. Scaraffia, Guanhong Tan, Jun Isoe, BIO5 member Vicki H. Wysocki, and the late Michael A. Wells.

These researchers have discovered that one particular mosquito species, Aedes aegypti, has a surprisingly complex metabolic pathway, one that requires its members to excrete toxic nitrogen after gorging on human blood. If the mosquitoes fail to do so, they'll also fail to lay eggs--and will likely sicken and die.

Scaraffia, a research assistant professor in UA's department of biochemistry and molecular biophysics, and the other members of the team published their findings in the January 15 issue of the Proceedings of the National Academy of Sciences. The research was funded by the National Institutes of Health.

Miesfeld and his colleagues are seeking a molecule that is harmless to humans, but will gum up the works of mosquito metabolism, forcing the mosquitoes to hang onto the nitrogen. Such a molecule would kill both the mosquitoes and their would-be progeny--thus slowing the spread of disease.

Once found, this molecule--and similar molecules aimed at other mosquito species--could be developed into an insecticide and sprayed in places where mosquitoes congregate, such as around water and on mosquito netting.

The researchers also envision developing an oral insecticide--a mosquito-slaying pill that members of a community with a high instance of, say, yellow fever or malaria might take to reduce the mosquito population. The pill wouldn't be a vaccine; if people who took it were later bitten by a disease-carrying mosquito, they would still become infected. However, the mosquito would ingest the insecticide along with the blood, causing her to bear fewer young and possibly die before she could bite anyone else.

"The whole community would essentially become one big mosquito trap," Miesfeld said. Over time, mosquito populations and disease rates would both decline. "It would be a group effort that in the long run could have a huge impact."

In a world where both mosquitoes and the diseases they carry are becoming increasingly resistant to known insecticides and medicines, finding new ways to fight them is crucial.

"This would be one more weapon in our arsenal against diseases that kill millions of people a year," Miesfeld said.


Story Source:

The above story is based on materials provided by University of Arizona. Note: Materials may be edited for content and length.


Cite This Page:

University of Arizona. "Researchers Put The Bite On Mosquitoes." ScienceDaily. ScienceDaily, 18 January 2008. <www.sciencedaily.com/releases/2008/01/080116111957.htm>.
University of Arizona. (2008, January 18). Researchers Put The Bite On Mosquitoes. ScienceDaily. Retrieved May 23, 2015 from www.sciencedaily.com/releases/2008/01/080116111957.htm
University of Arizona. "Researchers Put The Bite On Mosquitoes." ScienceDaily. www.sciencedaily.com/releases/2008/01/080116111957.htm (accessed May 23, 2015).

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