Abstract

The growth hormone (GH)-releasing action of GH-releasing factor (GRF) is known to be cAMP-dependent. However, definitive proof for the involvement of the cAMP-dependent enzyme protein kinase A (PKA) is still lacking. In this study, we characterized the PKA system in purified rat somatotrophs and examined its role in mediating GRF-stimulated GH release under static incubation conditions. PKA enzyme activity was detected only in the cytosolic, but not the particulate fraction of rat somatotrophs. This cytosolic PKA activity exhibited the characteristic cAMP dependence (with ED50 of 0.1 microM), ability to phosphorylate kemptide (a synthetic peptide with a PKA phosphorylation site), and susceptibility to inhibition by the bovine heat-stable PKA inhibitor. GRF treatment (1 pM-1 nM) stimulated the cytosolic PKA activity and GH release from rat somatotrophs in a dose-dependent manner. Time-course studies also demonstrated that activation of cAMP synthesis and PKA activity preceded the GH response to GRF. Stimulation of cytosolic PKA activity in rat somatotrophs by the adenylate cyclase activator forskolin (10 nM-1 microM) and membrane permeant cAMP analog db.cAMP (5 microM-0.5 mM) mimicked the GH-releasing effect of GRF. In contrast, Rp.cAMP, a cAMP antagonist for PKA regulatory subunits, blocked both the cytosolic PKA activity as well as GRF-induced GH release. Similar inhibitions were also observed when an inhibitor for PKA catalytic subunits, H89, was used. Somatostatin (SRIF) (1 nM), the physiological GH-release inhibitor, suppressed the GH response to GRF without affecting the basal or GRF-stimulated PKA activity. SRIF at a higher dose (10 nM) abolished the GH-releasing effect of GRF. In this case, SRIF also induced a small but significant inhibition of GRF-stimulated PKA activity. Taken together, the present study provides direct evidence that PKA enzyme activity is localized only in the cytosol of rat somatotrophs and constitutes an essential component of the signal transduction mechanism for GRF-stimulated GH release. This cytosolic PKA system, however, does not appear to be a major target for the GH-release inhibiting action of SRIF.

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