In a first, researchers have shown that proteins in the legs of malaria carrying mosquitoes help them develop resistant to insecticides, an advance that may lead to new strategies against the disease which kills nearly 4,00,000 people each year. The study, published in the journal Nature, noted that insecticide resistant populations of two malaria carrying mosquitoes -- Anopheles gambiae and Anopheles coluzzii -- express a family of binding proteins situated in their legs.
According to the researchers from the Liverpool School of Tropical Medicine (LSTM) in the UK, the newly found resistance mechanism may be contributing to the lower than expected efficacy of bed nets in Western Africa where these mosquitoes are widely found.
"The protein, which is based in the legs, comes into direct contact with the insecticide as the insect lands on the net, making it an excellent potential target for future additives to nets to overcome this potent resistance mechanism," explained Victoria Ingham, study first author from LSTM.
Studying the mosquitoes, the researchers proved that the binding protein, SAP2, was found elevated in resistant populations, and further elevated following contact with pyrethroids -- the insecticide class which is used on all bed nets.
When the scientists partially silenced the gene that coded for this protein, lowering its production in the mosquitoes, the study said, susceptibility to the insecticide were restored.
Conversely, the researchers said, when the protein was expressed at elevated levels, previously susceptible mosquitoes became resistant to pyrethroids.
Due to resistance shown by the mosquitoes, new insecticide treated bed nets containing two compounds -- piperonyl butoxide (PBO) as well as pyrethroid insecticides -- have been introduced, the study said.
However, the scientists said, mosquitoes are continually evolving new resistance approaches, and the discovery of the current mechanism provides an opportunity to identify additional compounds that could be used to restore susceptibility.
According to the researchers, long-lasting insecticide treated bed nets remain one of the key interventions in malaria control.
"It is vital that we understand and mitigate for resistance within mosquito populations in order to ensure that the dramatic reductions in disease rates in previous decades are not reversed," said study co-author Hilary Ranson from LSTM.
"This newly discovered resistance mechanism could provide us with an important target for both the monitoring of insecticide resistance and the development of novel compounds able to block pyrethroid resistance and prevent the spread of malaria," Ranson added.