Abstract
In several studies reporting cell death (CD) in lower eukaryotes and in the human protozoan parasite Leishmania, proteolytic activity was revealed using pan-caspase substrates or inhibitors such as carbobenzoxy-valyl-alanyl-aspartyl-[O-methyl]-fluoromethylketone (Z-VAD-FMK). However, most of the lower eukaryotes do not encode caspase(s) but MCA, which differs from caspase(s) in its substrate specificity and cannot be accountable for the recognition of Z-VAD-FMK. In the present study, we were interested in identifying which enzyme was capturing the Z-VAD substrate. We show that heat shock (HS) induces Leishmania CD and leads to the intracellular binding of Z-VAD-FMK. We excluded binding and inhibition of Z-VAD-FMK to Leishmania major metacaspase (LmjMCA), and identified cysteine proteinase C (LmjCPC), a cathepsin B-like (CPC) enzyme, as the Z-VAD-FMK binding enzyme. We confirmed the specific interaction of Z-VAD-FMK with CPC by showing that Z-VAD binding is absent in a Leishmania mexicana strain in which the cpc gene was deleted. We also show that parasites exposed to various stress conditions release CPC into a soluble fraction. Finally, we confirmed the role of CPC in Leishmania CD by showing that, when exposed to the oxidizing agent hydrogen peroxide (H2O2), cpc knockout parasites survived better than wild-type parasites (WT). In conclusion, this study identified CPC as the substrate of Z-VAD-FMK in Leishmania and as a potential additional executioner protease in the CD cascade of Leishmania and possibly in other lower eukaryotes.
Highlights
Leishmania is an interesting unicellular model organism to study the cell death (CD) machinery
Heat shock (HS) treatment of Leishmania parasites leads to intracellular binding and accumulation of the caspase inhibitor fluorescein isothiocyanate-valyl-alanyl-aspartyl[O-methyl]-fluoromethylketone (FITC-VAD-FMK)
Leishmania parasites were exposed to a HS treatment at 551C for 10 min followed by incubation overtime with FITC-VAD-FMK
Summary
Leishmania is an interesting unicellular model organism to study the CD machinery. In the insect vector, Leishmania differentiates from proliferating non-infectious procyclic to non-dividing infectious stationary metacyclic promastigotes. The presence of other proteases acting in the Leishmania CD pathway could explain the recognition of substrates such as carbobenzoxy-valyl-alanyl-aspartyl-[O-methyl]-fluoromethylketone (Z-VAD-FMK), a cell permeate pan-caspase inhibitor. This caspase inhibitor binding was used as a phenotypic marker of CD in yeast cells or protozoan parasites undergoing CD13,18–20 and was shown to block CD in lower eukaryotes such as Dictyostelium.[21] This lead to a confusing situation as these organisms do not code for caspase. LmjMCA activity but binds to cathepsin B-like (CPC) enzyme, providing an explanation for the detection of caspase
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