ABSTRACT
OBJECTIVES: The authors propose simultaneous inhibition of Gßγ signaling in the heart and the adrenal gland as a novel therapeutic approach for heart failure (HF). BACKGROUND: Elevated sympathetic nervous system activity is a salient characteristic of HF progression. It causes pathologic desensitization of ß-adrenergic receptors (ß-AR), facilitated predominantly through Gßγ-mediated signaling. The adrenal glands are key contributors to the chronically elevated plasma catecholamine levels observed in HF, where adrenal α2-AR feedback inhibitory function is impaired also through Gßγ-mediated signaling. METHODS: We investigated the efficacy of a small molecule Gßγ inhibitor, gallein, in a clinically relevant, pressure-overload model of HF. RESULTS: Daily gallein treatment (10 mg/kg/day), initiated 4 weeks after transverse aortic constriction, improved survival and cardiac function and attenuated cardiac remodeling. Mechanistically, gallein restored ß-AR membrane density in cardiomyocytes, attenuated Gßγ-mediated G-protein-coupled receptor kinase 2-phosphoinositide 3-kinase γ membrane recruitment, and reduced Akt (protein kinase B) and glycogen synthase kinase 3ß phosphorylation. Gallein also reduced circulating plasma catecholamine levels and catecholamine production in isolated mouse adrenal glands by restoring adrenal α2-AR feedback inhibition. In human adrenal endocrine tumors (pheochromocytoma), gallein attenuated catecholamine secretion, as well as G-protein-coupled receptor kinase 2 expression and membrane translocation. CONCLUSIONS: These data suggest small molecule Gßγ inhibition as a systemic pharmacologic therapy for HF by simultaneously normalizing pathologic adrenergic/Gßγ signaling in both the heart and the adrenal gland. Our data also suggest important endocrine/cardiovascular interactions and a possible role for small molecule Gßγ inhibition in treating endocrine tumors such as pheochromocytoma, in addition to HF.
