Scientists identify important mechanism involved in production of mosquito eggs

UC Riverside research could lead to innovative strategies for controlling mosquito populations

IMAGE:Keira J. Lucas, a fifth-year Ph.D. graduate student in the Graduate Program in Genetics, Genomics and Bioinformatics at UC Riverside, is the research paper's first author. view more

Credit: Raikhel Lab, UC Riverside.

RIVERSIDE, Calif. - Diseases transmitted by mosquitoes have contributed to the death and suffering of millions throughout human history, earning the mosquito the title as the world's most dangerous animal. Even today, several devastating mosquito-borne diseases (such as malaria, dengue fever and West Nile virus) continue to rage.

The urgent need to better control mosquito numbers and interfere with disease transmission has guided much mosquito research in laboratories worldwide. Female mosquitoes rely on a blood-meal as a source of nutrients required for reproduction. The thinking is that if the mechanisms that govern mosquitoes' egg production are better understood, novel approaches to controlling the reproduction and population of mosquitoes can be devised.

Now a team of scientists at the University of California, Riverside has made a research breakthrough in understanding, at the molecular level, one such mechanism related to the mosquito reproductive process. This mechanism includes small regulatory RNA molecules known as microRNAs or miRNAs.

The researchers report in this week's issue of the Proceedings of the National Academy of Sciences that they have identified microRNA-8 (miR-8) as an essential regulator of mosquito reproductive events. They note that its depletion in the female mosquito results in severe defects related to egg development and deposition.

Using newly established genetic tools in mosquito biology and doing analysis that identifies microRNA targets, they were able to show that miR-8 plays an essential role in the female mosquito "fat body" (fatty tissue analogous to the mammalian liver) by regulating a molecule, called "swim," that miR-8 directly targets. High levels of this molecule are detrimental to egg development.

"To our knowledge, this is the first time a mosquito miRNA has been investigated in this specific manner," said Alexander Raikhel, a distinguished professor of entomology, who has received wide acclaim for his research in the areas of insect reproductive biology. "In the lab, female transgenic mosquitoes with deficiency in miR-8 displayed severely compromised ovary development and reduced egg-laying."

While the researchers focused in this study on only Aedes aegypti, the mosquito that spreads dengue and yellow fever, their research results can be applied also to other disease-spreading mosquitoes.

Originally posted here:
Scientists identify important mechanism involved in production of mosquito eggs