Endoplasmic reticulum-associated degradation (ERAD) is a critical protein quality control mechanism that also regulates lipid metabolism and calcium homeostasis. Dysregulation of ERAD and unfolded protein response underlies diseases including cancer, neurodegenerative disorders, and metabolic syndromes. Small molecule modulators of ERAD could enable mechanistic discovery and therapeutic intervention, but few have been identified. Using a high-content screening, we discovered several ERAD-modulating compounds, including NCATS-SM0225, an ERAD inhibitor that unexpectedly binds all three isoforms of VDAC, outer mitochondrial membrane proteins enriched at mitochondria-associated membranes. This led us to discover an essential role for VDACs in ERAD and ER-phagy. NCATS-SM0225 elevates cytosolic, ER, and mitochondrial calcium through calcium influx and IP3R–MCU activity. This calcium imbalance strengthens VDAC1–IP3R coupling and activates PERK, which phosphorylates STIM1 and drives degradation of key ERAD regulators. Loss of these components amplifies PERK signaling and selectively kills cancer cells while sparing normal cells. These findings uncover a cancer-specific role of VDACs in ERAD regulation and calcium signaling, highlighting a therapeutically actionable vulnerability.