The novel cyclophilin-D-interacting protein FASTKD1 protects cells against oxidative stress-induced cell death

Abstract

Opening of the mitochondrial permeability transition (MPT) pore leads to necrotic cell death. Excluding cyclophilin D (CypD), the makeup of the MPT pore remains conjecture. The purpose of these experiments was to identify novel MPT modulators by analyzing proteins that associate with CypD. We identified Fasactivated serine/threonine phosphoprotein kinase domain-containing protein 1 (FASTKD1) as a novel CypD interactor. Overexpression of FASTKD1 protected mouse embryonic fibroblasts (MEFs) against oxidative stress-induced reactive oxygen species (ROS) production and cell death, whereas depletion of FASTKD1 sensitized them. However, manipulation of FASTKD1 levels had no effect on MPT responsiveness, Ca2+-induced cell death, or antioxidant capacity. Moreover, elevated FASTKD1 levels still protected against oxidative stress in CypD-deficient MEFs. FASTKD1 overexpression decreased Complex-I-dependent respiration and ΔΨm in MEFs, effects that were abrogated in CypD-null cells. Additionally, overexpression of FASTKD1 in MEFs induced mitochondrial fragmentation independent of CypD, activation of Drp1, and inhibition of autophagy/ mitophagy, whereas knockdown of FASTKD1 had the opposite effect. Manipulation of FASTKD1 expression also modified oxidative stress-induced caspase-3 cleavage yet did not alter apoptotic death. Finally, the effects of FASTKD1 overexpression on oxidative stressinduced cell death and mitochondrial morphology were recapitulated in cultured cardiac myocytes. Together, these data indicate that FASTKD1 supports mitochondrial homeostasis and plays a critical protective role against oxidant-induced death.