Anna Gridina scite author profile

Sleep apnea, which is the periodic cessation of breathing during sleep, is a major health problem affecting over 10 million people in the United States and is associated with several sequelae, including hypertension and stroke. Clinical studies suggest that abnormal carotid body (CB) activity may be a driver of sleep apnea. Because gaseous molecules are important determinants of CB activity, aberrations in their signaling could lead to sleep apnea. Here, we report that mice deficient in heme oxygenase-2 (HO-2), which generates the gaseous molecule carbon monoxide (CO), exhibit sleep apnea characterized by high apnea and hypopnea indices during rapid eye movement (REM) sleep. Similar high apnea and hypopnea indices were also noted in prehypertensive spontaneously hypertensive (SH) rats, which are known to exhibit CB hyperactivity. We identified the gaseous molecule hydrogen sulfide (HS) as the major effector molecule driving apneas. Genetic ablation of the HS-synthesizing enzyme cystathionine-γ-lyase (CSE) normalized breathing in HO-2 mice. Pharmacologic inhibition of CSE with l-propargyl glycine prevented apneas in both HO-2 mice and SH rats. These observations demonstrate that dysregulated CO and HS signaling in the CB leads to apneas and suggest that CSE inhibition may be a useful therapeutic intervention for preventing CB-driven sleep apnea.

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Olfactory receptor 78 participates in carotid body response to a wide range of low O₂ levels but not severe hypoxia

Peng

Gridina

Wang

et al. 2020

Journal of Neurophysiology

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H2S mediates carotid body response to hypoxia but not anoxia

Peng

Makarenko

Gridina

et al. 2019

Respiratory Physiology & Neurobiology

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The role of cystathionine-γ-lyase (CSE) derived HS in the hypoxic and anoxic responses of the carotid body (CB) were examined. Experiments were performed on Sprague-Dawley rats, wild type and CSE knockout mice on C57BL/6 J background. Hypoxia (pO = 37 ± 3 mmHg) increased the CB sensory nerve activity and elevated HS levels in rats. In contrast, anoxia (pO = 5 ± 4 mmHg) produced only a modest CB sensory excitation with no change in HS levels. DL-propargylglycine (DL-PAG), a blocker of CSE, inhibited hypoxia but not anoxia-evoked CB sensory excitation and [Ca] elevation of glomus cells. The inhibitory effects of DL-PAG on hypoxia were seen: a) when it is dissolved in saline but not in dimethyl sulfoxide (DMSO), and b) in glomus cells cultured for18 h but not in cells either soon after isolation or after prolonged culturing (72 h) requiring 1-3 h of incubation. On the other hand, anoxia-induced [Ca] responses of glomus cell were blocked by high concentration of DL-PAG (300μM) either alone or in combination with aminooxyacetic acid (AOAA; 300μM) with a decreased cell viability. Anoxia produced a weak CB sensory excitation and robust [Ca] elevation in glomus cells of both wild-type and CSE null mice. As compared to wild-type, CSE null mice exhibited impaired CB chemo reflex as evidenced by attenuated efferent phrenic nerve responses to brief hyperoxia (Dejours test), and hypoxia. Inhalation of 100% N (anoxia) depressed breathing in both CSE null and wild-type mice. These observations demonstrate that a) hypoxia and anoxia are not analogous stimuli for studying CB physiology and b) CSE-derived HS contributes to CB response to hypoxia but not to that of anoxia.

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Anna Gridina

Complementary roles of gasotransmitters CO and H₂S in sleep apnea

Olfactory receptor 78 participates in carotid body response to a wide range of low O₂ levels but not severe hypoxia

H2S mediates carotid body response to hypoxia but not anoxia

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Anna Gridina

Complementary roles of gasotransmitters CO and H2S in sleep apnea

Olfactory receptor 78 participates in carotid body response to a wide range of low O2 levels but not severe hypoxia

H2S mediates carotid body response to hypoxia but not anoxia

Contact Info

Product

Resources

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Complementary roles of gasotransmitters CO and H₂S in sleep apnea

Olfactory receptor 78 participates in carotid body response to a wide range of low O₂ levels but not severe hypoxia