Cardioprotection specific for the G protein G i2 in chronic adrenergic signaling through β 2 -adrenoceptors

Abstract

Two subtypes of β-adrenoceptors, β ₁ and β ₂ , mediate cardiac catecholamine effects. These two types differ qualitatively, e.g., regarding G protein coupling and calcium channel stimulation. Transgenic mice overexpressing human β ₂ -adrenoceptors survive high-expression levels, unlike mice overexpressing β ₁ -adrenoceptors. We examined the role of inhibitory G _i proteins, known to be activated by β ₂ - but not β ₁ -adrenoceptors, on the chronic effects of human β ₂ -adrenoreceptor overexpression in transgenic mice. These mice were crossbred with mice where Gα _i2 , a functionally important cardiac G _i α-subunit, was inactivated by targeted gene deletion. Survival of β ₂ -adrenoreceptor transgenic mice was reduced by heterozygous inactivation of Gα _i2 . Homozygous knockout/β ₂ -adrenoreceptor transgenic mice died within 4 days after birth. Heterozygous knockout/β ₂ -adrenoreceptor transgenic mice developed more pronounced cardiac hypertrophy and earlier heart failure compared with β ₂ -adrenoreceptor transgenic mice. Single calcium-channel activity was strongly suppressed in heterozygous knockout/β ₂ -adrenoreceptor transgenic mice. In cardiomyocytes from these mice, pertussis toxin treatment in vitro fully restored channel activity and enhanced channel activity in cells from homozygous Gα _i2 knockout animals. Cardiac Gα _i3 protein was increased in all Gα _i2 knockout mouse strains. Our results demonstrate that Gα _i2 takes an essential protective part in chronic signaling of overexpressed β ₂ -adrenoceptors, leading to prolonged survival and delayed cardiac pathology. However, reduction of calcium-channel activity by β ₂ -adrenoreceptor overexpression is due to a different pertussis-toxin-sensitive pathway, most likely by Gα _i3 . This result indicates that subtype-specific signaling of β ₂ -adrenoreceptor functionally bifurcates at the level of G _i , leading to different effects depending on the Gα isoform.