UC Riverside study uses gene-editing tool to disrupt serotonin receptor linked to egg production in Aedes aegypti mosquitoes
Mosquitoes are the world’s deadliest animals, killing thousands of people and causing millions of illnesses each year. To be able to reproduce and become effective disease carriers, mosquitoes must first attain optimal body size and nutritional status.
A pair of researchers at the University of California, Riverside, have succeeded in using CRISPR-Cas9, a powerful tool for altering DNA sequences and modifying gene function, to decrease mosquito body size, moving the research one step closer to eliminating mosquitoes that carry dengue fever and Zika virus.
The researchers succeeded in postponing mosquito development, shortening the animal’s lifespan, retarding egg development, and diminishing fat accumulation.
Alexander Raikhel, a distinguished professor of entomology, and Lin Ling, a postdoctoral scholar working with Raikhel, used CRISPR-Cas9 to disrupt the serotonin receptor Aa5HT2B in Aedes aegypti mosquitoes, the vectors of dengue fever, yellow fever, and Zika virus.
“Aa5HT2B controls insulin-like peptides,” Raikhel said. “We were able to uncover the different roles that these peptides play in controlling body size and metabolism, and disrupt the gene associated with this receptor.”
The team accomplished this, Raikhel said, by uncovering a key molecular pathway determining mosquito body size and metabolism.
“Mosquitoes of small size with diminished fat resources mature later and live shorter lives than nonmodified mosquitoes,” he said. “Thus, these genetically engineered mosquitoes have low reproductive capacity and ability to transmit disease pathogens. These features of CRISR-Cas9 mutant mosquitoes can be exploited for developing novel mosquito control approaches. Many challenges remain on the road, however, toward achieving this goal.”
Study results appear in the Proceedings of the National Academy of Sciences.
Raikhel, the UC Presidential Chair and the Mir Mulla Endowed Chair in the Department of Entomology and a member of the National Academy of Sciences, explained that disease-transmitting female mosquitoes require a vertebrate blood meal to produce their eggs because egg development occurs only after a diet change from carbohydrate-rich nectar to protein-rich vertebrate blood.
Blood feeding, Raikhel added, boosts serotonin concentration and increases the level of the serotonin receptor Aa5HT2B in the “fat-body,” the insect analog of vertebrate liver and adipose tissue. A target for hormones, the fat-body is the main nutrient sensor in insects. It links nutritional state, metabolism, and growth.
“Our study provides for the first time a link — the serotonin receptor Aa5HT2B — between blood feeding and the serotonin signaling that is specific to the fat-body,” he said. “Aa5HT2B mediates serotonin action. Until now, the mechanisms of serotonin action specific to the fat-body were poorly understood. Understanding regulatory mechanisms that underlie determination of body size and metabolism is important for developing novel approaches to control mosquito populations and the diseases they carry.”
One important question for further research is how CRISPR-Cas9 gene modification could be introduced into the wild mosquito population.
“This question is a topic of intense research in other laboratories,” Raikhel said. “At UCR, we are continuing our efforts in identifying other key processes important for mosquito development that could be exploited for mosquito control.”
Learn more:Â Researchers identify new approach for controlling dengue fever and Zika virus
The Latest on: Mosquito control
[google_news title=”” keyword=”mosquito control” num_posts=”10″ blurb_length=”0″ show_thumb=”left”]
via Google News
The Latest on: Mosquito control
- County of San Diego notifies Mount Hope residents of mosquito treatmenton July 24, 2024 at 10:26 pm
SAN DIEGO (FOX 5/KUSI) — Dengue, a tropical viral disease, has prompted the San Diego County Vector Control to hand-spray a neighborhood ... The plan to hand-spray comes after mosquitoes were found ...
- Mosquitoes carrying West Nile virus detected in Worcesteron July 24, 2024 at 9:48 pm
Officials plan to spray pesticide in an area of Worcester after West Nile virus was detected in mosquitoes there.
- Upcoming Mosquito Spraying: Locations & Dates Announced For Towns Around Plymouth Countyon July 24, 2024 at 5:32 pm
The Plymouth County Mosquito Control Project has released the spray routes for adult mosquito control on its website fo ...
- SD County Plans to Hand Spray for Mosquitoes in Mt. Hope Area Fridayon July 24, 2024 at 4:03 pm
San Diego County Vector Control personnel prepare to spray for mosquitoes. Courtesy County News Center County Vector Control crews plan to hand spray a neighborhood in the Mt. Hope area this week to ...
- Mosquito pool collected in Wood County tests positive for West Nile viruson July 24, 2024 at 2:25 pm
A mosquito pool collected in Wood County has tested positive for West Nile virus. The sample of mosquitoes was collected on July 12 and sent for testing to the Ohio Department of Health. The positive ...
- County to Hand Spray for Mosquitoes in Mt. Hope Areaon July 24, 2024 at 2:19 pm
County Vector Control crews plan to hand-spray a neighborhood in the Mt. Hope area this week to keep mosquitoes from potentially spreading the dengue virus after mosquitoes were found near a person ...
- Mosquitoes in Worcester test positive for West Nile virus, city officials sayon July 24, 2024 at 11:41 am
The city has so far not reported any human cases, but will be spraying pesticides off a truck on Thursday evening after 8:30 p.m. (or Friday, if the first date gets rained out) in the area near Rural ...
- Mosquito pool in Seneca County tests positive for West Nile viruson July 24, 2024 at 8:35 am
According to the Seneca County General Health District, the mosquitoes were collected July 10 at the Clary-Boulee-McDonald Nature Preserve.
- States across US are seeing seasonal increase in mosquitoes with West Nile viruson July 23, 2024 at 1:00 pm
Several health departments across the U.S. are reporting a seasonal increase in the number of mosquitoes testing positive for West Nile virus.
via Bing News