Mitochondrial nicotinamide nucleotide transhydrogenase: active site modification by 5'-[p-(fluorosulfonyl)benzoyl]adenosine.

Abstract

Membrane-bound and purified mitochondrial energy-linked nicotinamide nucleotide transhydrogenase (TH) was inhibited by incubation with 5'-[p-(fluorosulfonyl)benzoyl]adenosine (FSBA), which is an analogue of TH substrates and their competitive inhibitors, namely, 5'-, 2'-, or 3'-AMP. NAD(H) and analogues, NADP, 5'-AMP, 5'-ADP, and 2'-AMP/3'-AMP mixed isomers protected TH against inhibition by FSBA, but NADPH accelerated the inhibition rate. In the absence of protective ligands or in the presence of NADP, FSBA appeared to modify the NAD(H) binding site of TH, because, unlike unmodified TH, the enzyme modified by FSBA under these conditions did not bind to an NAD-affinity column (NAD-agarose). However, when the NAD(H) binding site of TH was protected in the presence of 5'-AMP or NAD, then FSBA modification resulted in an inhibited enzyme that did bind to NAD-agarose, suggesting FSBA modification of the NADP(H) binding site or an essential residue outside the active site. [3H]FSBA was covalently bound to TH, and complete inhibition corresponded to the binding of about 0.5 mol of [3H]FSBA/mol of TH. Since purified TH is known to be dimeric in the isolated state, this binding stoichiometry suggests half-of-the-sites reactivity. A similar binding stoichiometry was found earlier for complete inhibition of TH by [14C]DCCD [Phelps, D.C., & Hatefi, Y. (1984) Biochemistry 23, 4475-4480]. The active site directed labeling of TH by radioactive FSBA should allow isolation of appropriate peptides for sequence analysis of the NAD(H) and possibly the NADP(H) binding domains.