Unravelling the anti-apoptotic role of Plasmodium falciparum Prohibitin-2 (PfPhb2) in maintaining mitochondrial homeostasis.

The functional mitochondrion is vital for the propagation of the malaria parasite in the human host. Members of the SPFH protein family, Prohibitins (PHBs), are known to play crucial roles in maintaining mitochondrial homeostasis and cellular functions. Here, we have functionally characterized the homologue of the Plasmodium falciparumProhibitin-2 (PfPhb2) protein. A transgenic parasite line, generated using the selection-linked integration (SLI) strategy for C-terminal tagging, was utilized for cellular localization as well as for inducible knock-down of PfPhb2. We show that PfPhb2 localizes in the parasite mitochondrion during the asexual life cycle. Inducible knock-down of PfPhb2 by GlmS ribozyme caused no significant effect on the growth and multiplication of parasites. However, depletion of PfPhb2 under mitochondrial-specific stress conditions, induced by inhibiting the essential mitochondrial AAA-protease, ClpQ protease, results in enhanced inhibition of parasite growth, mitochondrial ROS production, mitochondrial membrane potential loss and led to mitochondrial fission/fragmentation, ultimately culminating in apoptosis-like cell-death. Further, PfPhb2 depletion renders the parasites more susceptible to mitochondrial targeting drug proguanil. These data suggest the functional involvement of PfPhb2 along with ClpQ protease in stabilization of various mitochondrial proteins to maintain mitochondrial homeostasis and functioning. Overall, we show that PfPhb2 has an anti-apoptotic role in maintaining mitochondrial homeostasis in the parasite.