Activation of opioid μ-receptors in medullary raphe depresses sighs

Zhang Z, Xu F, Zhang C, Liang X. Activation of opioid mu-receptors in medullary raphe depresses sighs. Am J Physiol Regul Integr Comp Physiol 296: R1528-R1537, 2009. First published February 25, 2009; doi:10.1152/ajpregu.90748.2008.-Sighs, a well-known phenomenon in mammals, are substantially augmented by hypoxia and hypercapnia. Because (D-Ala(2), N-Me-Phe(4), Gly-ol)enkephalin (DAMGO), a mu-receptor agonist, injected intravenously and locally in the caudal medullary raphe region (cMRR) decreased the ventilatory response to hypoxia and hypercapnia, we hypothesized that these treatments could inhibit sigh responses to these chemical stimuli. The number and amplitude of sighs were recorded during three levels of isocapnic hypoxia (15%, 10%, and 5% O-2 for 1.5 min) or hypercapnia (3%, 7%, and 10% CO2 for 4 min) to test the dependence of sigh responses on the intensity of chemical drive in anesthetized and spontaneously breathing rats. The role of mu-receptors in modulating sigh responses to 10% O-2 or 7% CO2 was subsequently evaluated by comparing the sighs before and after 1) intravenous administration of DAMGO (100 mu g/kg), 2) microinjection of DAMGO (35 ng/100 nl) into the cMRR, and 3) intravenous administration of DAMGO after microinjection of D-Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH2 (CTAP, 100 ng/100 nl), a mu-receptor antagonist, into the cMRR. Hypoxia and hypercapnia increased the number, but not amplitude, of sighs in a concentration-dependent manner, and the responses to hypoxia were significantly greater than those to hypercapnia. Systemic and local injection of DAMGO into the cMRR predominantly decreased the number of sighs, while microinjection into the rostral and middle MRR had no or limited effects. Microinjecting CTAP into the cMRR significantly diminished the systemic DAMGO-induced reduction of the number of sighs in response to hypoxia, but not to hypercapnia. Thus we conclude that hypoxia and hypercapnia elevate the number of sighs in a concentration-dependent manner in anesthetized rats, and this response is significantly depressed by activating systemic mu-receptors, especially those within the cMRR.