Abstract
Trypanosomatids' amino acid permeases are key proteins in parasite metabolism since they participate in the adaptation of parasites to different environments. Here, we report that TcAAP3, a member of a Trypanosoma cruzi multigene family of permeases, is a bona fide arginine transporter. Most higher eukaryotic cells incorporate cationic amino acids through a single transporter. In contrast, T. cruzi can recognize and transport cationic amino acids by mono-specific permeases since a 100-fold molar excess of lysine could not affect the arginine transport in parasites that over-express the arginine permease (TcAAP3 epimastigotes). In order to test if the permease activity regulates downstream processes of the arginine metabolism, the expression of the single T. cruzi enzyme that uses arginine as substrate, arginine kinase, was evaluated in TcAAP3 epimastigotes. In this parasite model, intracellular arginine concentration increases 4-folds and ATP level remains constant until cultures reach the stationary phase of growth, with decreases of about 6-folds in respect to the controls. Interestingly, Western Blot analysis demonstrated that arginine kinase is significantly down-regulated during the stationary phase of growth in TcAAP3 epimastigotes. This decrease could represent a compensatory mechanism for the increase in ATP consumption as a consequence of the displacement of the reaction equilibrium of arginine kinase, when the intracellular arginine concentration augments and the glucose from the medium is exhausted. Using immunofluorescence techniques we also determined that TcAAP3 and the specific lysine transporter TcAAP7 co-localize in a specialized region of the plasma membrane named flagellar pocket, staining a single locus close to the flagellar pocket collar. Taken together these data suggest that arginine transport is closely related to arginine metabolism and cell energy balance. The clinical relevance of studying trypanosomatids' permeases relies on the possibility of using these molecules as a route of entry of therapeutic drugs.
Highlights
Trypanosoma cruzi is the causative agent of Chagas ‘disease, a zoonosis affecting approximately 18 million people in the Americas [1]
A similar mechanism of regulation was described for arginine and other T. cruzi amino acids transport systems [10], supporting the hypothesis that most of the previously characterized transport systems in trypanosomatids involve members of the TcAAAP family
While the transport of lysine has been increased in 50-folds by over-expression of TcAAP7 [11], in the case of arginine transport we failed to obtained cell clones exceeding about 2.5-folds the control rate using exactly the same approach. This phenomenon could be related to alterations in the T. cruzi arginine metabolism, in contrast to the lysine one, which is probably limited to osmoregulation and protein synthesis [11]
Summary
Trypanosoma cruzi is the causative agent of Chagas ‘disease, a zoonosis affecting approximately 18 million people in the Americas [1]. We studied the TcAAP3 specific localization in the parasite surface and its contribution on the regulation of arginine metabolism and cell energy balance. Cruzi, the full-length TcAAP3 and the eGFP genes were cloned in the expression vector pTREXL and epimastigote cells were transfected with the different plasmid constructions.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
