Atorvastatin protects against deleterious cardiovascular consequences induced by chronic intermittent hypoxia

Totoson, Perle; Fhayli, Wassim; Faury, Gilles; Korichneva, Irina; Cachot, Sandrine; Baldazza, Marie; Ribuot, Christophe; Pépin, Jean‐Louis; Lévy, Patrick; Joyeux‐Faure, Marie

doi:10.1177/1535370212473696

Cited by 34 publications

(37 citation statements)

References 30 publications

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“…Our data are consistent with the literature, which reports the following: (1) an independent association between OSA and hypertension in humans34 and (2) a determinant role of chronic IH in inducing elevation of arterial and blood pressure in healthy humans and animals exposed to IH 35, 36, 37. We further demonstrated that, in addition to the elevation of arterial blood pressure, IH also induces an arterial inflammatory remodeling with subsequent stiffening.…”

Section: Discussionsupporting

confidence: 92%

“…These data are in accordance with clinical observations, demonstrating a significant increase in the carotid artery intima‐media thickness in patients with OSA that correlates to the severity of nocturnal hypoxemia 38, 39, 41. In rodent models, exposure to at least 14 days of IH resulted in enlarged intima‐media thickness and/or disruption of the elastic network 10, 11, 12, 37, 42, 43. In addition to structural remodeling, arterial stiffness and hypertension are also under the control of endothelial‐derived mediators, such as NO,40 and reduced NO bioavailability contributes to endothelial dysfunction, which represents a hallmark of hypertension and arterial stiffening.…”

Section: Discussionsupporting

confidence: 90%

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Nonmuscle Myosin Light Chain Kinase: A Key Player in Intermittent Hypoxia‐Induced Vascular Alterations

Arnaud

Bouyon

Recoquillon

et al. 2018

JAHA

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BackgroundObstructive sleep apnea is characterized by repetitive pharyngeal collapses during sleep, leading to intermittent hypoxia (IH), the main contributor of obstructive sleep apnea–related cardiovascular morbidity. In patients and rodents with obstructive sleep apnea exposed to IH, vascular inflammation and remodeling, endothelial dysfunction, and circulating inflammatory markers are linked with IH severity. The nonmuscle myosin light chain kinase (nmMLCK) isoform contributes to vascular inflammation and oxidative stress in different cardiovascular and inflammatory diseases. Thus, in the present study, we hypothesized that nmMLCK plays a key role in the IH‐induced vascular dysfunctions and inflammatory remodeling.Methods and ResultsTwelve‐week‐old nmMLCK +/+ or nmMLCK −/− mice were exposed to 14‐day IH or normoxia. IH was associated with functional alterations characterized by an elevation of arterial blood pressure and stiffness and perturbations of NO signaling. IH caused endothelial barrier dysfunction (ie, reduced transendothelial resistance in vitro) and induced vascular oxidative stress associated with an inflammatory remodeling, characterized by an increased intima‐media thickness and an increased expression and activity of inflammatory markers, such as interferon‐γ and nuclear factor‐κB, in the vascular wall. Interestingly, nmMLCK deletion prevented all IH‐induced functional and structural alterations, including the restoration of NO signaling, correction of endothelial barrier integrity, and reduction of both oxidative stress and associated inflammatory response.ConclusionsnmMLCK is a key mechanism in IH‐induced vascular oxidative stress and inflammation and both functional and structural remodeling.

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Section: Discussionsupporting

confidence: 92%

Section: Discussionsupporting

confidence: 90%

Nonmuscle Myosin Light Chain Kinase: A Key Player in Intermittent Hypoxia‐Induced Vascular Alterations

Arnaud

Bouyon

Recoquillon

et al. 2018

JAHA

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“…Recently, Buchner et al (9) demonstrated that OSA patients exhibit an increase in infarct size after an ischemic event compared with patients without OSA. Several animal studies have confirmed these clinical observations and demonstrated that IH induces an elevation of mean arterial blood pressure (BP) and increases myocardial infarct size after ischemia-reperfusion protocols (6,35,54,57,62).…”

mentioning

confidence: 53%

“…21) and an increase in arterial BP (6,35,57,62). As ER stress inhibitors have been shown to prevent both ANG II-induced systemic hypertension (37) and hypoxiainduced pulmonary arterial hypertension (42) in mice, our data suggest that prolonged ER stress induced by IH could contribute to the IH-induced elevation of arterial BP.…”

Section: Ih-induced Increase In Bp and Infarct Size: Potential Role Omentioning

confidence: 66%

High-intensity training reduces intermittent hypoxia-induced ER stress and myocardial infarct size

Bourdier

Flore

Sanchez³

et al. 2016

American Journal of Physiology-Heart and Circulatory Physiology

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Chronic intermittent hypoxia (IH) is described as the major detrimental factor leading to cardiovascular morbimortality in obstructive sleep apnea (OSA) patients. OSA patients exhibit increased infarct size after a myocardial event, and previous animal studies have shown that chronic IH could be the main mechanism. Endoplasmic reticulum (ER) stress plays a major role in the pathophysiology of cardiovascular disease. High-intensity training (HIT) exerts beneficial effects on the cardiovascular system. Thus, we hypothesized that HIT could prevent IH-induced ER stress and the increase in infarct size. Male Wistar rats were exposed to 21 days of IH (21-5% fraction of inspired O2, 60-s cycle, 8 h/day) or normoxia. After 1 wk of IH alone, rats were submitted daily to both IH and HIT (2 ϫ 24 min, 15-30m/min). Rat hearts were either rapidly frozen to evaluate ER stress by Western blot analysis or submitted to an ischemia-reperfusion protocol ex vivo (30 min of global ischemia/ 120 min of reperfusion). IH induced cardiac proapoptotic ER stress, characterized by increased expression of glucose-regulated protein kinase 78, phosphorylated protein kinase-like ER kinase, activating transcription factor 4, and C/EBP homologous protein. IH-induced myocardial apoptosis was confirmed by increased expression of cleaved caspase-3. These IH-associated proapoptotic alterations were associated with a significant increase in infarct size (35.4 Ϯ 3.2% vs. 22.7 Ϯ 1.7% of ventricles in IH ϩ sedenary and normoxia ϩ sedentary groups, respectively, P Ͻ 0.05). HIT prevented both the IH-induced proapoptotic ER stress and increased myocardial infarct size (28.8 Ϯ 3.9% and 21.0 Ϯ 5.1% in IH ϩ HIT and normoxia ϩ HIT groups, respectively, P ϭ 0.28). In conclusion, these findings suggest that HIT could represent a preventive strategy to limit IHinduced myocardial ischemia-reperfusion damages in OSA patients.obstructive sleep apnea; intermittent hypoxia; ischemia-reperfusion; high-intensity aerobic training; endoplasmic reticulum stress NEW & NOTEWORTHYWe demonstrated that intermittent hypoxia induced cardiac proapoptotic ER stress and increased infarct size, which were prevented by high-intensity aerobic training. These results strengthen the need for early identification of patients with sleep apnea at risk for cardiovascular complications and suggest that exercise can be used as a new preventive strategy for these patients.

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“…The other novel biomarkers discovered, having a role in developing hypertension in OSA include Nesfatin-1, Fibrinogen, and YKL-40 (also referred to as human cartilage glycoprotein) 42 . A study successfully demonstrated the protective effects of atorvastatin against deleterious effects of inflammation on cardiovascular consequences induced by chronic intermittent hypoxia using murine model 46 .…”

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confidence: 99%

Obstructive Sleep Apnoea: A Risk Factor for Hypertension

Bader¹

2018

J Cardiol and Cardiovasc Sciences

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Obstructive Sleep Apnoea (OSA) is the most prevalent condition among sleep disordered breathing that leads to increased risk of cardiovascular (CV) and cerebrovascular morbidity and mortality. The most common comorbidity associated with OSA is systemic hypertension (HTN). Various epidemiological studies suggest a link between OSA and hypertension that involves complex interactions between various pathophysiological mechanisms and metabolic risk factors. OSA causes changes in normal physiological functions during nocturnal apneic episodes which in-turn lead to daytime hypertension. The widely accepted mechanisms by which the OSA contributes to the development of hypertension include sympathetic activation, inflammation, oxidative stress, and endothelial dysfunction. OSA and hypertension coexist in millions of people and both have been associated with heart disease, stroke, and premature death. Worldwide the prevalence of hypertension in OSA is estimated between 30 and 70%, thus setting it off as a major public health problem. Furthermore, not only has OSA been implicated in causing new hypertension but also it is said to promote resistant hypertension in already existent hypertensive patients, which may further grim the clinical and therapeutic outcomes. It is necessary to recognize the underlying OSA in-order to decrease the overall healthcare burden in terms of rigorous antihypertensive therapy instituted to OSA subjects. The review summarizes an up-to-date scenario of obstructive sleep apnoea as a cause of systemic hypertension and the overall cardiovascular risks.

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Atorvastatin protects against deleterious cardiovascular consequences induced by chronic intermittent hypoxia

Cited by 34 publications

References 30 publications

Nonmuscle Myosin Light Chain Kinase: A Key Player in Intermittent Hypoxia‐Induced Vascular Alterations

Nonmuscle Myosin Light Chain Kinase: A Key Player in Intermittent Hypoxia‐Induced Vascular Alterations

High-intensity training reduces intermittent hypoxia-induced ER stress and myocardial infarct size

Obstructive Sleep Apnoea: A Risk Factor for Hypertension

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