Malaria parasites hide out in humans when it's not mosquito season

Malaria parasites hide out in humans when it's not mosquito season
Credit: U.S. Centers for Disease Control

Malaria parasites survive the mosquito-free dry season by waiting silently in humans for the return of the rainy season that brings back with it mosquitoes. New research, by an international team including Penn State scientists, helps explain how the Plasmodium falciparum parasite survives the disruption to its lifecycle, which requires development within the mosquito host for transmission between people. A paper describing the research appears Oct. 26 in the journal Nature Medicine.

"One of the great mysteries in studying malaria," said Manuel Llinás, professor of biochemistry and and of chemistry at Penn State and an author of the paper, "is understanding how malaria survive throughout the dry season which lacks mosquitoes for transmission between people."

Malaria parasites, which affect hundreds of millions of people worldwide and kill nearly 300,000 children in Africa each year, spread among humans through the bites of infected mosquitoes. However, in many areas of the globe where malaria is endemic, an extreme dry season eliminates all of the mosquito breeding sites such that the mosquitoes disappear and malaria transmission is interrupted for several months every year. In these areas, asymptomatic people infected with the parasite can be found year-round, but symptomatic malaria cases rise sharply when mosquitoes are present before disappearing again during the dry season. Cases resume in the ensuing wet season when mosquitoes return and the cycle begins again.

The research team was led by Silvia Portugal at the Heidelberg University Hospital. Members of her lab visited Mali, working with Boubacar Traoré's group at the University of Sciences, Techniques and Technologies of Bamako in Mali to follow almost 600 Malians ranging in age from three months to 45 years of age over several cycles of annual dry and wet seasons. By comparing from people carrying malaria parasites to non-infected people they determined that dry season parasites were not triggering host immunity.

According to the researchers, malaria parasites persist inside humans during the dry months at low levels that do not risk the host's health, guaranteeing their survival until the next wet season when parasite transmission can resume. One hallmark characteristic of the malaria parasite is that it can seemingly disappear from by adhering to the wall of the blood vessels as the parasite grows inside the . This adhesion to the blood vessel helps the parasite avoid clearance when red blood cells are routinely passed through the spleen, which clears old, damaged, or infected red blood cells.

Although the parasites continue to replicate inside of red blood cells year-round, during the dry season the are less adhesive and circulate longer throughout the body during the parasite's replication cycle. The longer circulation time makes them more susceptible to removal by the human spleen keeping the parasite burden low in infected individuals.

Malaria parasites hide out in humans when it's not mosquito season
Malaria in wet and dry seasons. Top: Histogram of the frequency of malaria cases over the course of one year showing the drop in the number of cases in humans during the dry season. Middle: View of Bamako in the wet and dry season, during the dry season mosquito breeding sites disappear and transmission of the malaria parasite is interrupted for several months. Bottom: Plasmodium falciparum, the malaria parasite, stained with Giemsa on thick blood smears from a malaria case in the wet season (left) and an asymptomatic infection at the end of the dry season (right) showing reduced parasite load in the asymptomatic sample. Credit: Portugal Laboratory

Using parasites collected throughout the year, the researchers sought to answer several questions: Whether parasites persisting through the dry season were genetically different? How the parasite genome was transcribed? How fast and efficiently replication occurred in the human host? How circulating host metabolites were affected? How well the parasites escaped a spleen-like filter? And, what adhesive molecules could be promoting the differences?

"With the help of a vast team of experts in many of these areas," said Portugal, "we could show that parasites collected during the dry season appear very different, but most of those differences were promoted by a less efficient adhesion of infected cells to the vasculature, leading to more developed parasites present in circulation during the dry season, and also to more efficient clearance of infected cells by the spleen."

The Penn State team used mass spectrometry-based metabolomics to identify differences in human serum from infected people in both the dry and rainy season.

"Our team wanted to explore if there were any metabolic differences in individuals infected with the during different times of the year when mosquitoes are abundant or absent," said Llinás. "What, if any, metabolic changes may impact the parasites in order for them to fly under the radar in the human host until the next rainy season when mosquitoes return and transmission resumes."

Although the analysis clearly identified a separation between human metabolites collected in the dry season versus the rainy season, the sample size was too small to determine specific metabolites that may extend the circulation time necessary to keep the parasite burden low.

"Our collective results are very exciting, because they suggest that there are both human-derived adaptations as well as parasite adaptations during the dry season when individuals are not exposed to mosquitoes," said Llinás. "It is tempting to speculate that during the wet , mosquito biting alters the development of the parasite in the human host to favor enhanced development and transmission to . How this might occur remains a mystery and is yet to be determined."

More information: Carolina M. Andrade et al. Increased circulation time of Plasmodium falciparum underlies persistent asymptomatic infection in the dry season, Nature Medicine (2020). DOI: 10.1038/s41591-020-1084-0
Journal information: Nature Medicine

Citation: Malaria parasites hide out in humans when it's not mosquito season (2020, October 27) retrieved 29 November 2022 from
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