Disruption of the fusion of Leishmania parasitophorous vacuoles with ER vesicles results in the control of the infection.

Parasitophorous vacuoles (PV) that harbour Leishmania parasites acquire some characteristics from fusion with host cell vesicles. Recent studies have shown that PVs acquire and display resident endoplasmic reticulum (ER) molecules. We investigated the importance of ER molecules to PV biology by assessing the consequence of blocking the fusion of PVs with vesicles that originate from the early secretory pathway. This was achieved by targeting the N-ethylmaleimide-sensitive factor attachment protein receptors (SNAREs) that mediate the fusion of early secretory vesicles. In the presence of dominant negative variants of sec22b or some of its known cognate partners, D12 and syntaxin 18, PVs failed to distend and harboured fewer parasites. These observations were confirmed in studies in which each of the SNAREs listed above including the intermediate compartment ER/Golgi SNARE, syntaxin 5, was knocked down. The knock-down of these SNARES had little or no measurable effect on the morphology of the ER or on activated secretion even though they resulted in a more significant reduction of PV size. Moreover, the knock-down of the ER/Golgi SNAREs resulted in significant reduction in parasite replication. Taken together, these studies provide further evidence that PVs acquire ER components by fusing with vesicles derived from the early secretory pathway; disruption of this interaction results in inhibition of the development of PVs as well as the limitation of parasite replication within infected cells.