1. Carbamylated form of human erythropoietin normalizes cardiorespiratory disorders triggered by intermittent hypoxia mimicking sleep apnea syndrome
- Author
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Karla G. Schwarz, Esteban Díaz-Jara, Katherin V. Pereyra, Jean-Paul Richalet, Hugo S. Díaz, Rodrigo Del Rio, Atenea Uribe-Ojeda, Nicolas Voituron, Claudia Melipillan, Julio Alcayaga, Camilo Toledo, Rodrigo Iturriaga, Rodrigo A. Quintanilla, David C. Andrade, and Angélica P. Ríos-Gallardo
- Subjects
Male ,medicine.medical_specialty ,Physiology ,Hypoxic ventilatory response ,030204 cardiovascular system & hematology ,Rats, Sprague-Dawley ,03 medical and health sciences ,0302 clinical medicine ,Sleep Apnea Syndromes ,Internal medicine ,Internal Medicine ,medicine ,Animals ,Humans ,Respiratory function ,030212 general & internal medicine ,Hypoxia ,Erythropoietin ,business.industry ,Respiration ,Sleep apnea ,Intermittent hypoxia ,medicine.disease ,Rats ,Obstructive sleep apnea ,medicine.anatomical_structure ,Breathing ,Cardiology ,Carotid body ,Cardiology and Cardiovascular Medicine ,business ,medicine.drug - Abstract
Background and objective Chronic intermittent hypoxia (CIH), one of the main features of obstructive sleep apnea (OSA), enhances carotid body-mediated chemoreflex and induces hypertension and breathing disorders. The carbamylated form of erythropoietin (cEpo) may have beneficial effects as it retains its antioxidant/anti-inflammatory and neuroprotective profile without increasing red blood cells number. However, no studies have evaluated the potential therapeutic effect of cEpo on CIH-related cardiorespiratory disorders. We aimed to determine whether cEpo normalized the CIH-enhanced carotid body ventilatory chemoreflex, the hypertension and ventilatory disorders in rats. Methods Male Sprague-Dawley rats (250 g) were exposed to CIH (5% O2, 12/h, 8 h/day) for 28 days. cEPO (20 μg/kg, i.p) was administrated from day 21 every other day for one more week. Cardiovascular and respiratory function were assessed in freely moving animals. Results Twenty-one days of CIH increased carotid body-mediated chemoreflex responses as evidenced by a significant increase in the hypoxic ventilatory response (FiO2 10%) and triggered irregular eupneic breathing, active expiration, and produced hypertension. cEpo treatment significantly reduced the carotid body--chemoreflex responses, normalizes breathing patterns and the hypertension in CIH. In addition, cEpo treatment effectively normalized carotid body chemosensory responses evoked by acute hypoxic stimulation in CIH rats. Conclusion Present results strongly support beneficial cardiorespiratory therapeutic effects of cEpo during CIH exposure.
- Published
- 2021