Abstract
Although G protein-coupled receptor-mediated signaling is one of the best studied biological events, little is known about the kinetics of these processes in intact cells. Experiments with neurons from alpha(2A)-adrenergic receptor knockout mice suggested that the alpha(2A)-receptor subtype inhibits neurotransmitter release with higher speed and at higher action potential frequencies than the alpha(2C)-adrenergic receptor. Here we investigated whether these functional differences between presynaptic alpha(2)-adrenergic receptor subtypes are the result of distinct signal transduction kinetics of these two receptors and their coupling to G proteins. alpha(2A)- and alpha(2C)-receptors were stably expressed in HEK293 cells at moderate ( approximately 2 pmol/mg) or high (17-24 pmol/mg) levels. Activation of G protein-activated inwardly rectifying K(+) (GIRK) channels was similar in extent and kinetics for alpha(2A)- and alpha(2C)-receptors at both expression levels. However, the two receptors differed significantly in their deactivation kinetics after removal of the agonist norepinephrine. alpha(2C)-Receptor-activated GIRK currents returned much more slowly to base line than did alpha(2A)-stimulated currents. This observation correlated with a higher affinity of norepinephrine at the murine alpha(2C)- than at the alpha(2A)-receptor subtype and may explain why alpha(2C)-adrenergic receptors are especially suited to control sympathetic neurotransmission at low action potential frequencies in contrast to the alpha(2A)-receptor subtype.
Highlights
G protein-coupled receptors (GPCRs)1 transfer a large diversity of extracellular signals into the cell interior, including light, neurotransmitters, and hormones
Experiments with neurons from ␣2A-adrenergic receptor knockout mice suggested that the ␣2A-receptor subtype inhibits neurotransmitter release with higher speed and at higher action potential frequencies than the ␣2C-adrenergic receptor. We investigated whether these functional differences between presynaptic ␣2-adrenergic receptor subtypes are the result of distinct signal transduction kinetics of these two receptors and their coupling to G proteins. ␣2A- and ␣2C-receptors were stably expressed in HEK293 cells at moderate (ϳ2 pmol/mg) or high (17–24 pmol/mg) levels
More detailed knowledge about the kinetic properties of GPCR signal transduction would be of particular interest to determine the physiological significance of closely related receptor subtypes, which can be activated by the same endogenous agonist but differ in their biological function
Summary
G protein-coupled receptors (GPCRs)1 transfer a large diversity of extracellular signals into the cell interior, including light, neurotransmitters, and hormones. At similar levels of expression, ␣2A- and ␣2C-receptors did not differ in their activation kinetics, but the deactivation after receptor stimulation by norepinephrine was significantly slower for ␣2C- than for ␣2A-receptors. GIRK currents (steady-state currents) were measured in cell clones expressing high (␣2A, 24 pmol/mg; ␣2C, 17 pmol/mg) or intermediate (␣2A and ␣2C, 2 pmol/mg) levels of ␣2-adrenergic receptors.
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