Targeting host glycolysis as a strategy for antimalarial development

Author:

Jezewski Andrew J.ORCID,Lin Yu-HsiORCID,Reisz Julie A.ORCID,Culp-Hill RachelORCID,Barekatain YasamanORCID,Yan Victoria C.ORCID,D’Alessandro AngeloORCID,Muller Florian L.ORCID,Odom John Audrey R.ORCID

Abstract

ABSTRACTGlycolysis controls cellular energy, redox balance, and biosynthesis. Antiglycolytic therapies are under investigation for treatment of obesity, cancer, aging, autoimmunity, and microbial diseases. Interrupting glycolysis is highly valued as a therapeutic strategy, because glycolytic disruption is generally tolerated in mammals. Unfortunately, anemia is a known dose-limiting side effect of these inhibitors and presents a major caveat to development of antiglycolytic therapies. We developed specific inhibitors of enolase – a critical enzyme in glycolysis – and validated their metabolic and cellular effects on human erythrocytes. Enolase inhibition increases erythrocyte susceptibility to oxidative damage and induces rapid and premature erythrocyte senescence, rather than direct hemolysis. We apply our model of red cell toxicity to address questions regarding erythrocyte glycolytic disruption in the context of Plasmodium falciparum malaria pathogenesis. Our study provides a framework for understanding red blood cell homeostasis under normal and disease states and clarifies the importance of erythrocyte reductive capacity in malaria parasite growth.

Publisher

Cold Spring Harbor Laboratory

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