1. Division and adaptation to host nutritional environment of apicomplexan parasites depend on apicoplast lipid metabolic plasticity and host organelles remodelling
- Author
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Sheena Dass, Cyrille Y. Botté, Melanie J. Shears, Souad Amiar, Geoffrey I. McFadden, Laurence Berry, Nicholas J. Katris, Yoshiki Yamaryo-Botté, Bastien Touquet, Camille Dorothée Brunet, and Mohamed-Ali Hakimi
- Subjects
De novo synthesis ,chemistry.chemical_compound ,Apicoplast ,chemistry ,Host (biology) ,Acyltransferase ,Organelle ,Biology ,Cytokinesis ,Fatty acid synthesis ,Cell biology ,Dynamin - Abstract
Apicomplexan parasites are unicellular eukaryotes responsible for major human diseases including malaria and toxoplasmosis. Apicomplexan parasites must obtain and combine lipids both from host cell scavenging andde novosynthesis to maintain parasite propagation and survival within their human host. Major questions on the actual role for each lipid source or how these are regulated upon fluctuating host nutritional conditions remain unanswered. Characterization of an apicoplast acyltransferase TgATS2, shows that the apicoplast provides local (lyso)phosphatidic acid balance, which is required for the recruitment of a novel dynamin (TgDrpC) critical during parasite cytokinesis. Disruption of TgATS2 led parasites to shift metabolic lipid acquisition fromde novosynthesis towards host scavenging. Importantly, both lipid scavenging andde novosynthesis pathways exhibit major metabolic and cellular plasticity upon sensing host lipid-deprived environments through concomitant (i) up-regulation ofde novofatty acid synthesis capacities in the apicoplast, and (ii) parasite-driven host cell remodelling to generate multi-membrane-bound structures from host organelles that are imported towards the parasite.
- Published
- 2019
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