1. The glycosomal-membrane associated phosphoglycerate kinase isoenzyme A plays a role in sustaining the glucose flux in Trypanosoma cruzi epimastigotes
- Author
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Paul A.M. Michels, Juan Luis Concepción, Wilfredo Quiñones, Ana J. Cáceres, Ximena Barros-Álvarez, and María Ruiz
- Subjects
Trypanosoma cruzi ,Protozoan Proteins ,Biology ,Microbodies ,Isozyme ,Glycosome ,chemistry.chemical_compound ,Cytosol ,Organelle ,Humans ,Chagas Disease ,Glycolysis ,Molecular Biology ,Phosphoglycerate kinase ,Biological Transport ,Intracellular Membranes ,biology.organism_classification ,Molecular biology ,Isoenzymes ,Phosphoglycerate Kinase ,Glucose ,Digitonin ,Biochemistry ,chemistry ,Parasitology - Abstract
In Trypanosoma cruzi three isoenzymes of phosphoglycerate kinase (PGK) are found which are simultaneously expressed: the cytosolic isoenzyme PGKB as well as two glycosomal enzymes, PGKA and PGKC. In this paper, we show that PGKA in T. cruzi epimastigotes is associated to the glycosomal membrane; it is responsible for about 23% of the glycosomal PGK activity, the fraction that remains in the pellet after osmotic shock treatment of purified organelles, in contrast to the 77% soluble activity that is mainly attributed to PGKC. Antibodies against the unique 80 amino-acid insertion of PGKA blocked almost completely the glucose consumption by epimastigotes that were partially permeabilized with digitonin. These results indicate that PGKA is the predominant isoenzyme for sustaining glycolysis through the glycosomes of these parasites.
- Published
- 2015
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