Abstract
The properties of the mitochondrial F1 FO -ATPase catalytic site, which can bind Mg2+ , Mn2+ , or Ca2+ and hydrolyze ATP, were explored by inhibition kinetic analyses to cast light on the Ca2+ -activated F1 FO -ATPase connection with the permeability transition pore (PTP) that initiates cascade events leading to cell death. While the natural cofactor Mg2+ activates the F1 FO -ATPase in competition with Mn2+ , Ca2+ is a noncompetitive inhibitor in the presence of Mg2+ . Selective F1 inhibitors (Is-F1 ), namely NBD-Cl, piceatannol, resveratrol, and quercetin, exerted different mechanisms (mixed and uncompetitive inhibition) on either Ca2+ - or Mg2+ -activated F1 FO -ATPase, consistent with the conclusion that the catalytic mechanism changes when Mg2+ is replaced by Ca2+ . In a partially purified F1 domain preparation, Ca2+ -activated F1 -ATPase maintained Is-F1 sensitivity, and enzyme inhibition was accompanied by the maintenance of the mitochondrial calcium retention capacity and membrane potential. The data strengthen the structural relationship between Ca2+ -activated F1 FO -ATPase and the PTP, and, in turn, on consequences, such as physiopathological cellular changes.
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