Malaria and Mosquito Immunity

A new study from Iowa State University entomologists describes how mosquitoes fight off the parasites that cause malaria. The study, published yesterday in Proceedings of the National Academy of Sciences, shows how the mosquito immune system combats malaria parasites at multiple stages of development. A better understanding of the mosquito immune response could lay the groundwork for future research to combat the transmission of malaria.

Roughly 219 million cases of malaria occurred worldwide in 2017, according to the Centers for Disease Control and Prevention, most in tropical and subtropical climates such as sub-Saharan Africa and South Asia. The disease resulted in 435,000 deaths in 2017, according to the CDC.

Mosquitoes are required to transmit malaria. They acquire the malaria parasites by biting an infected person and then transmit the disease weeks later after the parasite has completed development inside the mosquito. The new study focused on the mosquito immune system and how it responds to the parasite.

“Mosquitoes are generally pretty good at killing off the parasite,” says senior author Ryan Smith. “We wanted to figure out the mechanisms and pathways that make that happen.”

The researchers found that malaria parasites survived at greater rates in mosquitoes when the immune cells were depleted. The study also showed how these immune cells promoted different ‘waves’ of the mosquito immune response targeting distinct stages of malaria parasites in the mosquito host.

According to Smith, the findings increase the understanding of a complement-like pathway that is involved in the initial recognition and killing of parasites, similar to that found in mammals. The work also implicates phenoloxidases, an insect-specific immune response, in causing a secondary immune response directed at later stages of the malaria parasite.

Understanding these immune responses could lead to opportunities to eliminate malaria parasites in the mosquito, thus reducing the transmission of malaria. For instance, Smith suggested that scientists could use genetic approaches to make mosquitoes resistant to malaria parasites. Introducing mosquitoes with enhanced immunity in endemic areas of malaria could significantly reduce human malaria cases. “There are more steps required to validate that kind of approach, but we think this study lays a foundation for those future experiments,” Smith says.