Prolonged or overdose glucocorticoids (GCs) usage is the common cause of osteoporosis. In the present study, we studied the cellular mechanism of dexamethasone (Dex)-induce osteoblast cell death by focusing on the role of mitochondrial permeability transition pore (mPTP). In cultured osteoblastic MC3T3-E1 cells, Dex-induced mPTP opening, which was demonstrated by mitochondrial membrane potential (MPP) decrease, cyclophilin-D (CyPD)-adenine nucleotide translocator 1 (ANT-1) mitochondrial complexation and cytochrome C (cyto-C) release. The mPTP inhibitor sanglifehrin A (SfA) dramatically inhibited Dex-induced MPP loss, cyto-C release and MC3T3-E1 cell death. Dex-induced cell death requires mPTP composing protein CyPD, as CyPD inhibitor cyclosporin A (CsA) and CyPD siRNA knockdown inhibited Dex-induced MC3T3-E1 cell death, while CyPD overexpression aggravated Dex's cytotoxic effect. We found that Dex induced P53 phosphorylation and translocation to mitochondria, where it formed a complex with CyPD. Glucocorticoid receptor (GR) siRNA knockdown, or P53 inhibition (by its inhibitor pifithrin-α or shRNA silencing) suppressed Dex-induced CyPD-P53 mitochondrial association and subsequent MC3T3-E1 cell death. Finally, in primary cultured osteoblasts, Dex-induced cell death was inhibited by CsA, SfA or pifithrin-α. Together, our data suggest that Dex-induced osteoblast cell death is associated with GR-P53-regulated mPTP opening.
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