ATP and beta-adrenergic stimulation enhance voltage-gated K current inactivation in brown adipocytes.

Sympathetic activation of brown fat thermogenesis stimulates adrenergic and purinergic receptors. We examined the effects of extracellular ATP and beta-adrenergic agonists on voltage-activated K currents (IKv) in voltage-clamped rat brown adipocytes. ATP or the beta-adrenergic agonist isoproterenol increased the development of IKv inactivation during depolarizing voltage steps in perforated patch-clamped cells. The effects on inactivation developed slowly in the presence of agonist and continued to increase for long times following agonist washout. 8-bromo-cAMP or forskolin had similar effects on IKv inactivation. Development of IKv inactivation during depolarizations was consistently enhanced by ATP or beta-adrenergic stimulation in perforated-patch voltage-clamped cells but was not altered by these agents in whole cell recordings, suggesting that cytosolic factors are necessary for inactivation modulation. In either recording configuration, ATP or isoproterenol shifted the activation voltage dependence of IKv to more negative potentials, indicating the activation effect is mediated by a different pathway. Since both P2 purinergic and beta-adrenergic signaling pathways generate fatty acids, we tested whether fatty acids could reproduce these modulations of IKv. Linoleic or arachidonic acid applied in whole cell recordings had effects similar to those of ATP or isoproterenol in perforated-patch experiments. These results are consistent with the possibility that beta-adrenergic and P2 receptor stimulation modulate IKv through generation of fatty acids.