Stimulation of a low Km GTPase by inhibitors of adipocyte adenylate cyclase

K Aktories, G Schultz and KH Jakobs

The activity of enzymes exhibiting GTPase activity was determined in membrane preparations of hamster adipocytes. Two GTPases with apparent Km values of about 0.2 microM GTP (low Km GTPase) and 180 microM GTP (high Km GTPase) were found. The effects of various agents that stimulate or inhibit adipocyte adenylate cyclase were investigated with these two forms of GTPase. None of the stimulatory or inhibitory agonists studied affected the activity of the high Km GTPase(s). However, factors inhibiting adenylate cyclase, such as prostaglandin E1, nicotinic acid, 3-carboxy-5-methylpyrazole, and N6- phenylisopropyladenosine, stimulated the low Km GTPase by 50--100% without an apparent lag phase. The activity of the stimulated GTPase was half-maximal at about 0.2 microM GTP. NaCl (up to 100 mM) had no effect on the basal activity of this enzyme but amplified the stimulation induced by adenylate cyclase inhibitory agents. There was a good correlation between inhibition of adenylate cyclase and stimulation of the low Km GTPase, both with regard to the concentration required for half-maximal effects on these two enzymes and with regard to the potency order of various prostaglandins studied. In contrast to factors inhibiting adenylate cyclase, the stimulatory hormones, isoproterenol and ACTH, had only small effects on the low Km GTPase activity; potassium fluoride was completely ineffective. The data suggest that an increased GTP hydrolysis by an activated GTPase is an essential mechanism of hormone-induced adenylate cyclase inhibition.

Volume 21, Issue 2, pp. 336-342, 03/01/1982
Copyright © 1982 by American Society for Pharmacology and Experimental Therapeutics

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