Abstract

Malaria is a deadly, infectious disease caused by the parasite Plasmodium, leading to millions of deaths worldwide. Plasmodium requires a coordinated pattern of sequential gene expression for surviving in both invertebrate and vertebrate host environments. As parasites largely depend on host resources, they also develop efficient mechanisms to sense and adapt to variable nutrient conditions in the environment and modulate their virulence. Earlier we have shown that PfGCN5, a histone acetyltransferase, binds to the stress-responsive and virulence-related genes in a poised state and regulates their expression under temperature and artemisinin treatment conditions in P. falciparum. In this study, we show upregulation of PfGCN5 upon nutrient stress condition. With the help of chromatin immunoprecipitation coupled high-throughput sequencing (ChIP-seq) and transcriptomic (RNA-sequencing) analyses, we show that PfGCN5 is associated with the genes that are important for the maintenance of parasite cellular homeostasis upon nutrient stress condition. Furthermore, we identified various metabolic enzymes as interacting partners of PfGCN5 by immunoprecipitation coupled with mass spectroscopy, possibly acting as a sensor of nutrient conditions in the environment. We also demonstrated that PfGCN5 interacts and acetylates PfGAPDH in vitro. Collectively, our data provides important insights into transcriptional deregulation upon nutrient stress condition and elucidate the role of PfGCN5 during nutrient stress condition.

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