SNARE proteins required during Trypanosoma cruzi parasitophorous vacuole development

CUETO JA; VANRELL MC; SALASSA BN; NOLA S; GALLI T; COLOMBO MI; ROMANO PS

CELLULAR MICROBIOLOGY (PRINT)

WILEY-BLACKWELL PUBLISHING, INC

Año: 2017

1462-5814

Trypanosoma cruzi, the etiologic agent of Chagas disease, is an obligate intracellular parasite that exploits different host vesicular pathways to invade the target cells. Vesicular and target SNAREs are key proteins of the intracellular membrane fusion machinery. During the early times of T. cruzi infection, several vesicles are attracted to the parasite contact sites in the plasma membrane. Fusion of these vesicles promotes the formation of the parasitic vacuole and parasite entry. In this work, we study the requirement and the nature of SNAREs involved in the fusion events which take place during T. cruzi infection. Our results show that inhibition of NSF, a protein required for SNARE complex disassembly, impairs T. cruzi infection. Both TI-VAMP/VAMP7 and cellubrevin/VAMP3, two v-SNAREs of the endocytic and exocytic pathways, are specifically recruited to the parasitophorous vacuole membrane in a synchronized manner but, although VAMP3 is acquired earlier than VAMP7, impairment of VAMP3 by tetanus neurotoxin fails to reduce T. cruzi infection. In contrast, reduction of VAMP7 activity by expression of VAMP7´s Longin domain, depletion by siRNA or knock out, significantly decreases T. cruzi infection susceptibility as a result of a minor acquisition of lysosomal components to the parasitic vacuole. In addition, overexpression of the VAMP7 partner Vti1b, increases the infection whereas expression of a KIF5 kinesin mutant reduces VAMP7 recruitment to vacuole and concomitantly, T. cruzi infection. Altogether, these data support a key role of TI-VAMP/VAMP7 in the fusion events that culminate in the T. cruzi parasitophorous vacuole development.