GRP75-faciliated Mitochondria-associated ER Membrane (MAM) Integrity controls Cisplatin-resistance in Ovarian Cancer Patients.

Control of ER-mitochondrial Ca fluxes is a critical checkpoint to determine cell fate under stress. The 75-kDa glucose-regulated protein (GRP75) is a key tether protein facilitating mitochondria-associated ER membrane (MAM) formation through the IP3R-GRP75-VDAC1 complex. Although GRP75 contributes to cisplatin (CP)-resistance of ovarian cancer (OC), the underlying mechanisms are not clear. CP-resistant and -sensitive OC cell lines with GRP75 stable modulation were established. Confocal, PLA, co-IP, and TEM analysis were utilized to detect MAM integrity. Live cell Ca imaging, intracellular ATP, ROS, and NAD assays were utilized to investigate ER-to-mitochondrial Ca transfer and mitochondrial bioenergetics. Western blot, flow cytometry, CCK-8, Δψm, and mPTP assays were utilized to examine apoptotic cell death. Bioinformatics, patient's specimens, and immunohistochemistry were conducted to obtain the clinical relevance for GRP75-facilitated MAM formation. GRP75-faciliated MAM formation was enriched in CP-resistant OC cells. CP-exposure only increased MAM formation in CP-sensitive OC cells, and enrichment of GRP75 and VDAC1 at MAMs is indispensable to CP-resistance. Diminishing MAM integrity by GRP75-deficiency reduced ER-to-mitochondria Ca transfer, accelerated CP-induced mitochondrial dysfunction, provoked catastrophic ROS, and enhanced CP-triggered apoptotic cell death in OC cells. Clinical investigations confirmed the enrichment of GRP75-faciliated MAM formation in relapsed OC patients, and such enrichment was associated with the CP-resistance phenotype. GRP75-overexpression confers CP-resistance by distinctively managing MAM-facilitated Ca fluxes and the pro-survival ROS signal, whereas GRP75-deficiency induces cell death via bioenergetic crisis and apoptotic ROS accumulation in OC cells. Our results show that GRP75-faciliated MAM formation is a potential target to overcome CP-resistance of OC.