Calcineurin is required for Leishmania major stress response pathways and for virulence in the mammalian host.

Leishmania parasites must adapt to elevated temperatures and other environmental stresses during infection of their mammalian hosts. How these environmental cues are sensed is poorly understood. In this study we show that calcium uptake is required for parasite thermotolerance at 34-37°C. To identify potential downstream targets of calcium influx, a Leishmania major mutant lacking the essential regulatory subunit (CnB) of the Ca(2+) /calmodulin-dependent serine/threonine-specific phosphatase, calcineurin, was generated. The Δcnb mutant grew as well as wild-type parasites at 27°C and differentiated normally to infective metacyclic promastigotes. However, Δcnb parasites lost viability when exposed to increased temperature (34°C) and were hypersensitive to endoplasmic reticulum and membrane stress, induced by tunicamycin and inhibitors of sterol and sphingolipid biosynthesis respectively. Δcnb promastigotes were internalized by macrophages, but their differentiation to the heat adapted amastigote stage was delayed and the resulting parasites failed to proliferate. Strikingly, the Δcnb parasites were completely cleared by susceptible BALB/c mice. Complementation of Δcnb parasites with CnB restored thermotolerance and infectivity in both macrophages and animal models. Our results suggest that Ca(2+) influx and calcineurin signalling are required for both early and long-term adaptive parasite responses to environmental stresses encountered in the mammalian host.
(© 2011 Blackwell Publishing Ltd.)