Abstract

Plasmodium falciparum enolase (Pfeno) localizes to the cytosol, nucleus, cell membrane and cytoskeletal elements, suggesting multiple non-glycolytic functions for this protein. Our recent observation of association of enolase with the food vacuole (FV) in immuno-gold electron microscopic images of P. falciparum raised the possibility for yet another moonlighting function for this protein. Here we provide additional support for this localization by demonstrating the presence of Pfeno in purified FVs by immunoblotting. To examine the potential functional role of FV-associated Pfeno, we assessed the ability of Pfeno to complement a mutant Saccharomyces cervisiae strain deficient in enolase activity. In this strain (Tetr-Eno2), the enolase 1 gene is deleted and expression of the enolase 2 gene is under the control of a tetracycline repressible promoter. Enolase deficiency in this strain was previously shown to cause growth retardation, vacuolar fragmentation and altered expression of certain vacuolar proteins. Expression of Pfeno in the enolase-deficient yeast strain restored all three phenotypic effects. However, transformation of Tetr-eno2 with an enzymatically active, monomeric mutant form of Pfeno (Δ5Pfeno) fully restored cell growth, but only partially rescued the fragmented vacuolar phenotype, suggesting that the dimeric structure of Pfeno is required for the optimal vacuolar functions. Bioinformatic searches revealed the presence of Plasmodium orthologs of several yeast vacuolar proteins that are predicted to form complexes with Pfeno. Together, these observations raise the possibility that association of Pfeno with food vacuole in Plasmodium may have physiological function(s).

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