SUMO chains depolymerization induces slender to stumpy differentiation inT. bruceibloodstream parasites

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Abstract

ABSTRACT Trypanosoma brucei are extracellular protozoan parasites transmitted by tsetse flies that cause sleeping sickness in humans and nagana in cattle. Inside the mammalian host, differentiation from a bloodstream replicative slender form into a quiescent stumpy form allows the persistence of the parasite and the spread of the infection. SUMOylation is a reversible and dynamic post-translational modification of proteins that regulates diverse nuclear processes, such as DNA replication, repair and transcription. SUMO can be attached to its target proteins either as a single monomer or forming polymeric chains. We found that transgenic cell lines able to conjugate SUMO just as a monomer are attenuated in vivo . SUMO chain mutant monomorphic parasites display relapsing and remitting waves of parasitemia, at variance with wild-type parasites that cause unremitting parasitemia and mice death. Furthermore, when mice are infected with an analogous SUMO chain mutant generated in a differentiation-competent pleomorphic background, stumpy cells can be observed at unusually low parasitemia values. Our study reveals that SUMO depolymerization could represent a coordinated signal triggered during a quiescence activation program.

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last seen: 2026-05-20T01:45:00.602351+00:00