Mechanisms Governing Translational Regulation During Plasmodium Transmission

New malarial infections start with a bite of a female Anopheles mosquito, which introduces the sporozoite form of the Plasmodium parasite into the skin of that individual. To get to this point, the parasite must have successfully infected and developed within the mosquito over the course of two weeks or more, using active responses to overcome the mosquito’s defenses. Having accomplished this, the sporozoite must now switch into a mode of preparation and become poised for a moment of opportunity to transmit from the mosquito back to its mammalian host.

Recently, it was discovered that sporozoites use two overlapping and orthogonal programs of translational repression (Programs 1 and 2) to allow translation of specific mRNAs to occur only at key moments in their development. However, while many specific mRNAs regulated by these programs are now known, the proteins that act upon them to cause silencing/repression (trans factors) remain unidentified. Moreover, while the timing of when these programs are turned off during parasite development and transmission is understood, the environmental cues that initiate this transition in translational regulation are still unknown.

These experimental questions will be addressed through reverse genetics, protein biochemistry, imaging flow cytometry, transcriptomics, proteomics, and cryogenic electron microscopy (cryo EM). In accomplishing this, the project aims to identify crucial regulatory features of the malaria parasite that control sporozoite development and transmission to a new mammalian host.

NIH Project details

Basic Science
Enabling Technologies & Assays
Genetics and Genomics

Sep 2022 — Aug 2024

$477,453

United States