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  • Title: ATP/Mg2+-dependent cardiac transport system for glutathione S-conjugates. A study using rat heart sarcolemma vesicles.
    Author: Ishikawa T.
    Journal: J Biol Chem; 1989 Oct 15; 264(29):17343-8. PubMed ID: 2793858.
    Abstract:
    In the present study, the transport of glutathione S-conjugate across rat heart sarcolemma has directly been proved to be an ATP-dependent process. Incubation of sarcolemma vesicles with S-(2,4-dinitrophenyl)glutathione (DNP-SG) in the presence of ATP resulted in a substantial uptake of DNP-SG into the vesicles; Mg2+ was required for ATP-stimulated transport. The rate of glutathione S-conjugate uptake was saturated with respect to ATP and DNP-SG concentrations with apparent Km values of 30 microM for ATP and 20 microM for DNP-SG. However, other nucleoside triphosphates, viz. GTP, UTP, CTP, and TTP, did not stimulate the transport effectively. The ATP-stimulated DNP-SG uptake was not affected by ouabain, EGTA, or by valinomycin-induced K+-diffusion potential, suggesting that Na+,K+-and Ca2+-ATPase activities as well as the membrane potential are not involved in the transport mechanism. ATP could not be replaced by ADP, AMP, or by ATP analogues, adenosine 5'-(beta,gamma-methylene) triphosphate and adenosine 5'-(beta,gamma-imino)triphosphate. From these observations, it is proposed that hydrolysis of gamma-phosphate of ATP is essential for the transport mechanism. The transport of DNP-SG by the sarcolemma vesicles, on the other hand, was inhibited by several different types of glutathione S-conjugates including 4-hydroxynonenal glutathione S-conjugate and leukotriene C4, and not by GSH. The transport system is suggested to have high affinities toward glutathione S-conjugates carrying a long aliphatic carbon chain (n greater than 6) and may play an important role in elimination of naturally occurring glutathione S-conjugates, such as leukotriene C4.
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