Abstract
Autophagy is a cellular process required for the removal of aged organelles and cytosolic components through lysosomal degradation. All types of eukaryotic cells from yeasts to mammalian cells have the machinery to activate autophagy as a result of many physiological and pathological situations. The most frequent stimulus of autophagy is starvation and the result, in this case, is the fast generation of utilizable food (e.g. amino acids and basic nutrients) to maintain the vital biological processes. In some organisms, starvation also triggers other associated processes such as differentiation. The protozoan parasite Trypanosoma cruzi undergoes a series of differentiation processes throughout its complex life cycle. Although not all autophagic genes have been identified in the T. cruzi genome, previous works have demonstrated the presence of essential autophagic-related proteins. Under starvation conditions, TcAtg8, which is the parasite homolog of Atg8/LC3 in other organisms, is located in autophagosome-like vesicles. In this work, we have characterized the autophagic pathway during T. cruzi differentiation from the epimastigote to metacyclic trypomastigote form, a process called metacyclogenesis. We demonstrated that autophagy is stimulated during metacyclogenesis and that the induction of autophagy promotes this process. Moreover, with exception of bafilomycin, other classical autophagy modulators have similar effects on T. cruzi autophagy. We also showed that spermidine and related polyamines can positively regulate parasite autophagy and differentiation. We concluded that both polyamine metabolism and autophagy are key processes during T. cruzi metacyclogenesis that could be exploited as drug targets to avoid the parasite cycle progression.
Highlights
Autophagy is a major intracellular degradation/recycling system ubiquitous in eukaryotic cells
Autophagy and polyamines are required during Trypanosoma cruzi metacyclogenesis collection and analysis, decision to publish, or preparation of the manuscript
Autophagy is induced during T. cruzi metacyclogenesis
Summary
Autophagy is a major intracellular degradation/recycling system ubiquitous in eukaryotic cells. It contributes to the turnover of cellular components by delivering portions of the cytoplasm and organelles to lysosomes, where they are digested [1]. Several genes required for autophagy have been described Their products, the so-called Autophagy (Atg)-related proteins, comprise the core molecular machinery responsible for the sequential activation of this pathway [3]. The formation of autophagosomes and execution of autophagy critically depend on proteolytic processing of Atg by the cysteine protease Atg, and its subsequent conjugation to the phosphatidylethanolamine in the expanding phagophore membrane [5]
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