Abstract
Six gene splice variants of superoxide-generating NADPH oxidase 5 (Nox5) have been identified in humans, and they differ in the sequence of their N-terminal cytoplasmic domains, which comprise four EF-hand motifs. Here, we demonstrated that the Ca2+ -dependent association and dissociation between the N- and C-terminal cytoplasmic domains of the Nox5β variant are affected by the alanine substitution of the conserved Ile-113 or Leu-115 at the connecting loop between the third and fourth EF-hand motifs. These substitutions impair the cell surface localization of Nox5β. In addition, the Nox5ε/S variant, lacking all EF-hand motifs, does not localize to the plasma membrane. Thus, the Ca2+ -sensitive intramolecular interaction determines the Nox5 subcellular localization, that is, whether Nox5 variants generate superoxide in the extracellular or intracellular space.
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