| 6127356 |
Lewicki JA, Brandwein HJ, Mittal CK, Arnold WP, Murad F: Properties of purified soluble guanylate cyclase activated by nitric oxide and sodium nitroprusside. J Cyclic Nucleotide Res. 1982;8(1):17-25.
Highly purified rat lung soluble guanylate cyclase was activated with nitric oxide or sodium nitroprusside and the degree of activation varied with incubation conditions. With Mg2+ as the action cofactor, about 2- to 8-fold activation was observed with nitric oxide or sodium nitroprusside alone. Markedly enhanced activation (20-40 fold) was observed when 1 muM hemin added to the enzyme prior to exposure to the activating agent. The activation with hemin and sodium nitroprusside was prevented in a dose-dependent manner by sodium cyanide. The level activation was also increased by the addition of 1 mM dithiothreitol, but unlike hemin which had no effect on basal enzyme activity, dithiothreitol led to a considerable increase in basal activity. Activated guanylate cyclase decayed to basal activity within one hour at 2 degrees C and the enzyme could be reactivated upon re-exposure to nitroprusside or nitric oxide. Under basal conditions, Michaelis-Menten kinetics were observed, with a Km for GTP of 140 muM with Mg2+ cofactor. Following activation with nitroprusside or nitric oxide, curvilinear Eadie-Hofstee transformations of kinetic data were observed, with Km's of 22 MuM and 100 MuM for Mg-GTP. When optimal activation (15-40 fold) was induced by the addition of hemin and nitroprusside, multiple Km's were also seen with Mg-GTP and the high affinity form was predominant (22 MuM). Similar curvilinear Eadie-Hofstee transformations were observed with Mn2+ as the cation cofactor. These data suggest that multiple GTP catalytic sites are present in activated guanylate cyclase, or alternatively, multiple populations of enzyme exist. |
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