Posts Tagged: Greg Lanzaro
It was just a matter of time before the so-called "super mosquito" surfaced, resulting in the failure of insecticide-treated nets to provide meaningful control from malaria in some localities in Africa.
"It's a ‘super' with respect to its ability to survive exposure to the insecticides on treated bed nets,” said medical entomologist Gregory Lanzaro, director of the Vector Genetics Laboratory at the School of Veterinary Medicine, University of California, Davis, who led the research team.
He and his colleagues recently discovered that interbreeding of two malaria mosquito species in the West African country of Mali, has resulted in “a super mosquito” hybrid that's resistant to insecticide-treated bed nets.
Anopheles gambiae, a major malaria vector, is interbreeding with isolated pockets of another malaria mosquito, A coluzzii.
The research, published in “The Proceedings of the National Academy of Sciences, “provides convincing evidence indicating that a man-made change in the environment--the introduction of insecticides--has altered the evolutionary relationship between two species, in this case a breakdown in the reproductive isolation that separates them,” said Lanzaro, a professor in the Department of Pathology, Microbiology and Immunology in the School of Veterinary Medicine.
Lanzaro and his "blood brother" medical entomologist Anthony Cornel of the Department of Entomology and Nematology have been researching mosquitoes in Mali since 1991.
Lanzaro called the need to develop new and effective malaria vector control strategies "urgent.”
Said Lanzaro: "A number of new strategies are in development, including new insecticides, biological agents--including mosquito killing bacteria and fungi--and genetic manipulation of mosquitoes aimed at either killing them or altering their ability to transmit the malaria parasite. These efforts need to be stepped up.”
The paper is titled “Adaptive Introgression in an African Malaria Mosquito Coincident with the Increase Usage of Insecticide-Treated Bed Nets.” First author is Laura Norris, then a postdoctoral scholar in the UC Davis Department of Entomology and Nematology who was supported by a National Institutes of Health T32 training grant awarded to Lanzaro. Norris has since accepted a position with the President's Malaria Initiative in Washington, D.C.
In addition to Lanzaro and Cornel, the co-authors include Yoosook Lee and Travis Collier of the Vector Genetics Lab and the Department of Pathology, Microbiology and Immunology; and Abdrahamane Fofana of the Malaria Research and Training Center at the University of Bamako, Mali. Three grants from the National Institutes of Health funded the research.
Medical entomologist Laura Norris (right side of table, second from top) works with a night's catch of mosquitoes in Mali.
UC Davis medical entomologist Anthony Cornel (left) emerges from a hut in Mali.
"Every 45 seconds a child in Africa dies from malaria, a disease spread by a single mosquito bite. There are more than 200 million cases of malaria each year, and nearly 1 million of those infected die from the disease — most of them children under the age of five."
That's on the Nothing But Nets website and there's something we can all do to help. We can donate $10 for a life-saving bed net to protect families in Africa from getting bit by a mosquito.
There's something else we can do: attend the third annual Bay Area World Malaria Day Symposium, set for 8 a.m. to 3 p.m., Friday, April 25 on the Clark Kerr campus, UC Berkeley.
It promises to be a day of innovation, knowledge-sharing and collaboration, announced Kay Monroe of Zagaya, the event host. The schedule of events will be presented the day of the symposium.
Lanzaro's Soundbite presentation,"Malaria in the Americas: A New Research Initiative for the UC Davis Vector Genetics Lab," will key in on the challenges of malaria control in Brazil. Lee's Soundbite presentation will be on a new diagnostic tool for malaria mosquito research. Luckhart is scheduled for both a Soundbite and poster.
Two of the UC Davis presenters, Laura Norris and Bradley Main, are National Institutes of Health T32 postdoctoral fellows. They will cover the topic of malaria vector evolution in the face of insecticide pressure from bed net campaign.
The list of the other UC Davis presenters, as announced by Monroe:
Nazzy Pakpour, Soundbite; and Elizabeth Glennon, Kristen Lokken, Jason Maloney, Jose Pietri, Rashaun Potts and Lattha Souvannaseng, Bo Wang, poster.
Keynote speakers are:
- Tim Wells, chief scientific officer, Medicines for Malaria Venture, Geneva, Switzerland, who will share the latest efforts to develop new drugs aimed at wiping out malaria.
Title: The Pipeline of Medicines to Support Malaria Control and Elimination
- Joseph DeRisi, professor and vice chair of the Department of Biochemistry and Biophysics, UC San Francisco, and a Howard Hughes Medical Institute investigator, who will talk about work in his lab.
Title: "A View from the Trenches – Anti-malarial Drug Development"
- Regina Rabinovich, ExxonMobil Malaria Scholar in Residence at the Harvard School of Public Health, who will examine the future of malaria eradication efforts, past the 2015 UN Millennium Development goals.
Title: "Beyond the Millennium Development Goals Horizon – What Will Help Drive Success Post-2015?"
Officials at Zagaya (which means "spear") say this is a critical time for malaria research professionals to come together, as it's one year away from the 2015 UN Millennium Development goal of halting and reversing the growth of malaria incidence. The symposium provides the forum for researchers, implementers, advocates and students to "inspire and catalyze change for the greater good."
Registration is open and ongoing until the day of the event. General registration is $50, and students, $25. A portion of the registration fee--$10--will go toward purchasing bed nets via the United Nation's Nothing but Nets program, a global, grassroots campaign to save lives by preventing malaria.
The nets are considered one of the most cost-effective tools to prevent the spread of malaria. How effective? Statistics show that bed nets can reduce malaria transmissions by 90 percent in areas with high coverage rates.
A malaria mosquito, Anopheles gambiae, feeding on human blood. (Photo by Anthony Cornel)