Mitochondria are critically involved in necrotic cell death induced by Ca²⁺ overload, hypoxia and oxidative damage. The mitochondrial permeability transition (MPT) pore — a protein complex that spans both the outer and inner mitochondrial membranes — is considered the mediator of this event and has been hypothesized to minimally consist of the voltage-dependent anion channel (Vdac) in the outer membrane, the adenine-nucleotide translocase (Ant) in the inner membrane and cyclophilin-D in the matrix^,,. Here, we report the effects of deletion of the three mammalian Vdac genes on mitochondrial-dependent cell death. Mitochondria from Vdac1-, Vdac3-, and Vdac1–Vdac3-null mice exhibited a Ca²⁺- and oxidative stress-induced MPT that was indistinguishable from wild-type mitochondria. Similarly, Ca²⁺- and oxidative-stress-induced MPT and cell death was unaltered, or even exacerbated, in fibroblasts lacking Vdac1, Vdac2, Vdac3, Vdac1–Vdac3 and Vdac1–Vdac2–Vdac3. Wild-type and Vdac-deficient mitochondria and cells also exhibited equivalent cytochrome c release, caspase cleavage and cell death in response to the pro-death Bcl-2 family members Bax and Bid. These results indicate that Vdacs are dispensable for both MPT and Bcl-2 family member-driven cell death.