Glycolytic enzymes form membrane-less condensates in the malaria parasite Plasmodium falciparum by sensing glucose levels

Recent studies have shown that liquid-liquid phase separation (LLPS) in cells can regulate essential cellular events, including metabolic processes. Glycolytic bodies (G-bodies) are biomolecular condensates formed through the LLPS of glycolytic enzymes, and they accelerate glycolysis to overcome hypoxic stress in several organisms. Although the asexual blood stage (ABS) of the human malaria parasite Plasmodium falciparum highly depends on glycolysis for energy production, there have been no reports of the formation of such G-bodies throughout the parasite’s lifecycle. Using fluorescence tagging and live imaging, we found that G-body-like condensates containing phosphofructokinase 9 (PFK9) and phosphoglycerate kinase (PGK) were formed in the parasite cells after long-term culture under conditions of low glucose. These G-body-like structures appeared stable, but membrane staining and osmotic stress experiments suggested that the observed condensates were not associated with lipid membrane. Further microscopic observations and mathematical analyses of high signal-to-noise ratio images indicated that small condensates were formed transiently first, and these then gradually grew and stabilized in the cytosol. These results suggested that the formation of glycolytic enzyme condensates may be an important cellular response for adapting to blood sugar level oscillations in the host and maintaining the parasite’s multiplication in the ABS.