Blood pressure response to chronic episodic hypoxia: the renin-angiotensin system

Abstract

By using an inspired oxygen fraction that produces oxyhemoglobin desaturation equivalent to that seen in human sleep apnea, we have demonstrated that 35 days of recurrent episodic hypoxia (every 30 s for 7 h/day) results in an 8–13 mmHg persistent increase in diurnal systemic mean arterial blood pressure (MAP) in rats. Blockade of angiotensin II receptors (AT1a) eliminates this response. Separate groups of male Sprague-Dawley rats were fed high-salt (8%), ad libitum-salt, or low-salt (0.1%) diets for 7 wk: 2 wk of wash-in for baseline blood pressure measurement and 5 wk of experimental conditions. Rats in each salt group were subjected to episodic hypoxia whereas controls remained unhandled under normoxic conditions. MAP remained at basal levels in all nonepisodic hypoxia controls as well as high-salt-diet episodic hypoxia-exposed rats. Ad lib and low-salt episodic hypoxia rats showed an increase in MAP from 106 and 104 mmHg at baseline to 112 and 113 mmHg, respectively ( P < 0.05). Whole kidney renin mRNA was suppressed in high-salt controls and episodic hypoxia rats, whereas kidney AT1a mRNA showed opposite changes. Suppression of the renin-angiotensin system with a high-salt diet blocks the increase in MAP in episodic hypoxia-challenged rats, in part by suppressing local tissue renin levels. Upregulation of the tissue angiotensin II system appears to be necessary for the chronic blood pressure changes that occur from episodic hypoxia.