Abstract
Adenosine may well be as important in the regulation of adenylate cyclase as hormones. Sattin and Rall first demonstrated in 1970 that adenosine was a potent stimulator of adenylate cyclase in the brain. However, adenosine is an equally potent inhibitor of adenylate cyclase in other cells such as adipocytes. The concentration of adenosine required for this regulation of adenylate cyclase is in the nanomolar range (10 to 100 nm). Both the inhibitory and stimulatory effects of low concentrations of adenosine on adenylate cyclase are antagonized by methylxanthines. This antagonism of adenosine action may account for all or part of the effects of methyl xanthines on cyclic AMP levels in many tissues. Adenosine appears to be a particularly important endogenous regulator of adenylate cyclase in brain, smooth muscle and fat cells. Under conditions in which intracellular AMP rises, adenosine formation and release is accelerated. In addition to its direct effects on adenylate cyclase, adenosine (at higher concentrations approaching millimolar) exerts multiple effects on cellular metabolism as a result of its intracellular metabolism and especially conversion to nucleotides.
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