α2-Adrenergic blockade rescues hypoglossal motor defense against obstructive sleep apnea
Gang Song, Chi-Sang Poon
Gang Song, Chi-Sang Poon
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Research Article Neuroscience Pulmonology

α2-Adrenergic blockade rescues hypoglossal motor defense against obstructive sleep apnea

Abstract

Decreased noradrenergic excitation of hypoglossal motoneurons during sleep causing hypotonia of pharyngeal dilator muscles is a major contributor to the pathogenesis of obstructive sleep apnea (OSA), a widespread disease for which treatment options are limited. Previous OSA drug candidates targeting various excitatory/inhibitory receptors on hypoglossal motoneurons have proved unviable in reactivating these neurons, particularly during rapid-eye-movement (REM) sleep. To identify a viable drug target, we show that the repurposed α2-adrenergic antagonist yohimbine potently reversed the depressant effect of REM sleep on baseline hypoglossal motoneuron activity (a first-line motor defense against OSA) in rats. Remarkably, yohimbine also restored the obstructive apnea–induced long-term facilitation of hypoglossal motoneuron activity (hLTF), a much-neglected form of noradrenergic-dependent neuroplasticity that could provide a second-line motor defense against OSA but was also depressed during REM sleep. Corroborating immunohistologic, optogenetic, and pharmacologic evidence confirmed that yohimbine’s beneficial effects on baseline hypoglossal motoneuron activity and hLTF were mediated mainly through activation of pontine A7 and A5 noradrenergic neurons. Our results suggest a 2-tier (impaired first- and second-line motor defense) mechanism of noradrenergic-dependent pathogenesis of OSA and a promising pharmacotherapy for rescuing both these intrinsic defenses against OSA through disinhibition of A7 and A5 neurons by α2-adrenergic blockade.

Authors

Gang Song, Chi-Sang Poon

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Figure 3

Systemic yohimbine reversed the depressions of baseline hypoglossal activity and obstructive apnea–induced hLTF during REM sleep.

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Systemic yohimbine reversed the depressions of baseline hypoglossal acti...
(A) Depression of baseline ∫Hypoglossal amplitude (amplitude of integrated hypoglossal nerve activity) during cholinergic-induced REM-like sleep was promptly reversed by systemic administration of yohimbine (0.75 mg/kg i.v.) in one rat. Systemic yohimbine also restored the facilitation of ∫Hypoglossal amplitude during and after episodic obstructive apnea (compare Figure 2, A and B). (B) Bar graphs (overlaid with individual data points) showing the efficacy (P < 0.05, 2-way ANOVA with repeated measures) of systemic yohimbine (0.75–1 mg/kg i.v., n = 7) in reversing the depressant effects of cholinergic-induced REM-like sleep (vs. cholinergic REM only, n = 6) on baseline ∫Hypoglossal amplitude before episodic obstructive apnea (left panel), as well as the facilitation of ∫Hypoglossal amplitude during the first and last apnea episodes (middle panel) and at 5 and 20 minutes after the last apnea episode (right panel). *P < 0.05 between values as indicated, Tukey post-hoc test. (C and D) Similar to A and B showing efficacy of system yohimbine (P < 0.05, 2-way ANOVA with repeated measures) but with a lower dose of 0.5 mg/kg i.v. (n = 6) under spontaneous REM sleep (vs. spontaneous REM only, n = 5). *P < 0.05 between values as indicated, Tukey post-hoc test.