Histamine H3-receptor signaling in the heart: possible involvement of Gi/Go proteins and N-type Ca++ channels.
Academic Article
Overview
abstract
Discovered as inhibitory autoreceptors in central histaminergic pathways, histamine H3-receptors may also modulate peripheral cholinergic and central adrenergic function. Recently, H3-receptors were reported to inhibit adrenergic inotropic responses in guinea pig atria, possibly at prejunctional sites. We have assessed whether the H3-mediated modulation of cardiac adrenergic activities results from a reduction in norepinephrine release. We have found that (R) alpha-methylhistamine, the selective histamine H3-receptor agonist, attenuates the inotropic and chronotropic response of isolated guinea pig atria to transmural stimulation of adrenergic nerve endings. This attenuation was associated with a marked reduction in endogenous norepinephrine release. In contrast (R) alpha-methylhistamine did not modify the chronotropic effect of exogenous norepinephrine. The attenuation of adrenergic responses by (R) alpha-methylhistamine was 1) prevented by thioperamide, the selective H3-receptor antagonist; 2) attenuated by pertussis-toxin pretreatment and 3) potentiated by the N-type Ca(++)-channel blocker omega-conotoxin, which also potentiated the sympathetic modulatory effects of adrenergic-alpha 2 and adenosine-A1 receptor agonists. Our findings indicate that prejunctional histamine H3-receptors modulate the depolarization-dependent norepinephrine release from sympathetic nerve endings in the guinea pig myocardium. These receptors are probably coupled to a pertussis-toxin-sensitive Gi/Go protein and probably effect a reduction in Ca++ current. We have previously reported that sympathetic stimulation elicits a frequency-dependent release of cardiac histamine, whereas others had found that adrenergic activity regulates histamine's rapid turnover pool. Accordingly, presynaptic H3-receptors are likely to serve a modulatory role in cardiac adrenergic function.
