Updated project metadata. The voltage-dependent anion-selective channels (VDACs), also known as eukaryotic porins, are pore-forming proteins which allow the passage of ions and small molecules across the outer mitochondrial membrane (OMM). They are involved in complex interactions regulating organelle and cellular metabolism. We have recently reported about the post-translational modifications (PTMs) of the three VDAC isoforms purified from rat liver mitochondria (rVDACs), showing for the first time the over-oxidation of the cysteine residues as an exclusive feature of VDACs. Noteworthy, this peculiar PTM is not detectable in other integral membrane mitochondrial proteins, as defined by their elution at low salt concentration by a hydroxyapatite column. In this study, the association of tryptic and chymotryptic proteolysis with UHPLC/High Resolution nESI-MS/MS, allowed us to extend the investigation to the human VDACs. Over-oxidation of the cysteine residues, essentially irreversible in cell conditions, was as certained also in VDAC isoforms from human cells. In human VDAC2 and 3 isoforms the permanently reduced state of a cluster of close cysteines indicates the possibility that disulfide bridges are formed in the proteins. Importantly, the detailed oxidative PTMs found in human VDACs confirm and sustain our previous findings in rat tissues, claiming for a predictable characterization that has to be conveyed in the functional role of VDAC proteins within the cell.