Conformation-Dependent Inhibition of Gastric H+,K+-ATPase by SCH 28080 Demonstrated by Mutagenesis of Glutamic Acid 820

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Vol. 55, Issue 3, 541-547, March 1999

Conformation-Dependent Inhibition of Gastric H⁺,K⁺-ATPase by SCH 28080 Demonstrated by Mutagenesis of Glutamic Acid 820

Herman G.P. Swarts, Harm P.H. Hermsen, Jan B. Koenderink, Peter H.G.M. Willems, and Jan Joep H.H.M. de Pont

Department of Biochemistry, Institute of Cellular Signalling, University of Nijmegen, Nijmegen, the Netherlands

Gastric H⁺,K⁺-ATPase can be inhibited by imidazo pyridines like 2-methyl-8-[phenylmethoxy] imidazo-(1,2a) pyridine 3-acetonitrile(SCH 28080). The drug shows a high affinity for inhibition ofK⁺-activated ATPase and for prevention of ATP phosphorylation. Theinhibition by SCH 28080 can be explained by assuming that SCH28080 binds to both the E₂ and the phosphorylated intermediate(E₂-P) forms of the enzyme. We observed recently that some mutants,in which glutamic acid 820 present in transmembrane domain sixof the catalytic subunit had been replaced (E820Q, E820N, E820A),lost their K⁺-sensitivity and showed constitutive ATPase activity. This ATPaseactivity could be inhibited by similar SCH 28080 concentrationsas the K⁺-activated ATPase of the wild-type enzyme. SCH 28080 also inhibitedATP phosphorylation at 21°C of the mutants E820D, E820N, and E820A,although with varying efficacy and affinity. ATP-phosphorylationof mutant E820Q was not inhibited by SCH 28080; in contrast, thephosphorylation level at 21°C was nearly doubled. These findingscan be explained by assuming that mutation of Glu⁸²⁰ favors the E₁ conformation in the order E820Q >E820A >E820N >wild-type= E820D. The increase in the phosphorylation level of the E820Qmutant can be explained by assuming that during the catalyticcycle the E₂-P intermediate forms a complex with SCH 28080. Thisintermediate hydrolyzes considerably slower than E₂-P and thusaccumulates. The high tendency of the E820Q mutant for the E₁form is further supported by experiments showing that ATP phosphorylationof this mutant is rather insensitive towards vanadate, inorganicphosphate, and K⁺.

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