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Lack of plasmodium surface-protein blocks mosquito infection

Date:
November 9, 2016
Source:
University of Sao Paulo Scientific Outreach Unit
Summary:
A previously unknown feature of the malaria parasite development has just been released by an international research team. Their study has shown that, contrary to what has been assumed so far, a Plasmodium surface-protein plays an essential role at a stage of its life cycle that occurs not in the body of the host, but in the guts of the Anopheles mosquito. The finding has consequences for the search for vaccines or drugs that could alleviate the suffering caused by malaria. By 2015, 214 million people were affected by the parasite, especially in Africa.
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A previously unknown feature of the malaria parasite development has just been published in the journal Cell Host&Microbe. An international research team, led by a parasitologist at University of São Paulo and Pasteur Institute, Paris, has shown that, contrary to what has been assumed so far, a Plasmodium surface-protein plays an essential role at a stage of its life cycle that occurs not in the body of the host, but in the guts of the Anopheles mosquito. The finding has consequences for the search for vaccines or drugs that could alleviate the suffering caused by malaria. By 2015, 214 million people were affected by the parasite, especially in Africa.

Throughout its life cycle, the malaria parasite assumes different forms, at different points in the host and vector bodies. The infected female of the mosquito, when it bites a human, inoculates the parasite present in its saliva in the form called sporozoite. Through the bloodstream, sporozoites reach the liver of the host, where they invade a class of cells called hepatocytes. Inside them, they become merozoites, the form of the parasite that invades the red blood cells. It is when the red blood cells break because they are full of parasites that the typical fever attacks of the disease occur. Typically, the stages of the life cycle that happen inside de host are assexual. Part of the merozoites, however, remains inside the erythrocytes and differs in gametocytes, male and female. The next stages of the life of the parasite now occur in the body of the mosquito which, by sucking the blood of the host, brings into its body the blood cells laden with parasites, now sexually differentiated.

It is in this comeback to the mosquito organism that lies the discovery published in Cell Host and Microbe. To continue their development, the gametocytes need to leave the vacuole in which they are harboured inside the red cell. In cells modified to not express the surface protein (called MTRAP), the team has verified, gametocytes cannot leave the vacuole. As a result, the life cycle of the plasmodium is interrupted and the mosquito can no longer transmit it. Until now, parasitologists have attributed to this protein the ability of merozoites to invade red blood cells still within the host's body. The experiments also showed that for this step, the MTRAP protein is innocuous.

"The experiments allow a new approach to influence the life cycle of plasmodium," says parasitologist Daniel Bargieri of the Institute of Biomedical Sciences at USP. "We now have yet another target to be studied to block transmission of the parasite, which increases the potential for achieving the ambitious goal of eradicating malaria."


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Materials provided by University of Sao Paulo Scientific Outreach Unit. Note: Content may be edited for style and length.


Journal Reference:

  1. Daniel Y. Bargieri, Sabine Thiberge, Chwen L. Tay, Alison F. Carey, Alice Rantz, Florian Hischen, Audrey Lorthiois, Ursula Straschil, Pallavi Singh, Shailja Singh, Tony Triglia, Takafumi Tsuboi, Alan Cowman, Chetan Chitnis, Pietro Alano, Jake Baum, Gabriele Pradel, Catherine Lavazec, Robert Ménard. Plasmodium Merozoite TRAP Family Protein Is Essential for Vacuole Membrane Disruption and Gamete Egress from Erythrocytes. Cell Host & Microbe, 2016; 20 (5): 618 DOI: 10.1016/j.chom.2016.10.015

Cite This Page:

University of Sao Paulo Scientific Outreach Unit. "Lack of plasmodium surface-protein blocks mosquito infection." ScienceDaily. ScienceDaily, 9 November 2016. <www.sciencedaily.com/releases/2016/11/161109133814.htm>.
University of Sao Paulo Scientific Outreach Unit. (2016, November 9). Lack of plasmodium surface-protein blocks mosquito infection. ScienceDaily. Retrieved May 25, 2017 from www.sciencedaily.com/releases/2016/11/161109133814.htm
University of Sao Paulo Scientific Outreach Unit. "Lack of plasmodium surface-protein blocks mosquito infection." ScienceDaily. www.sciencedaily.com/releases/2016/11/161109133814.htm (accessed May 25, 2017).

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