Chronic intermittent hypoxia induces cardiac inflammation and
dysfunction in a rat obstructive sleep apnea model
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Graphical Abstract
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Abstract
Chronic intermittent hypoxia is considered to play an important role in cardiovascular pathogenesis during the
development of obstructive sleep apnea (OSA). We used a well-described OSA rat model induced with simultaneous
intermittent hypoxia. Male Sprague Dawley rats were individually placed into plexiglass chambers with air pressure
and components were electronically controlled. The rats were exposed to intermittent hypoxia 8 hours daily for 5
weeks. The changes of cardiac structure and function were examined by ultrasound. The cardiac pathology, apoptosis,
and fibrosis were analyzed by H&E staining, TUNNEL assay, and picosirius staining, respectively. The expression of
inflammation and fibrosis marker genes was analyzed by quantitative real-time PCR and Western blot. Chronic
intermittent hypoxia/low pressure resulted in significant increase of left ventricular internal diameters (LVIDs), endsystolic volume (ESV), end-diastolic volume (EDV), and blood lactate level and marked reduction in ejection fraction
and fractional shortening. Chronic intermittent hypoxia increased TUNNEL-positive myocytes, disrupted normal
arrangement of cardiac fibers, and increased Sirius stained collagen fibers. The expression levels of hypoxia induced
factor (HIF)-1α, NF-kB, IL-6, and matrix metallopeptidase 2 (MMP-2) were significantly increased in the heart of rats
exposed to chronic intermittent hypoxia. In conclusion, the left ventricular function was adversely affected by chronic
intermittent hypoxia, which is associated with increased expression of HIF-1α and NF-kB signaling molecules and
development of cardiac inflammation, apoptosis and fibrosis.
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