延髓中缝区域的阿片类μ受体影响麻醉大鼠的低氧通气。
Opioid mu-receptors in medullary raphe region affect the hypoxic ventilation in anesthetized rats.
作者信息
Zhang Zhenxiong, Xu Fadi, Zhang Cancan, Liang Xiaomin
机构信息
Pathophysiology Program, Lovelace Respiratory Research Institute, 2425 Ridgecrest Drive SE, Albuquerque, NM 87108, USA.
出版信息
Respir Physiol Neurobiol. 2009 Sep 30;168(3):281-8. doi: 10.1016/j.resp.2009.07.015. Epub 2009 Jul 24.
Abstract
Opioids can attenuate the peripheral chemoreceptor-mediated hypoxic ventilatory response (HVR) by acting on central mu-type opioid receptors. Since the medullary raphe region (MRR) expresses abundant mu-receptors and participates in modulating HVR, we tested the role of mu-receptors within the caudal, medial, and rostral MRR (cMRR, mMRR, and rMRR) in modulating the HVR. We recorded cardiorespiratory activities and their responses to isocapnic hypoxia in anesthetized rats before and after local microinjection of DAMGO into the MRR, and intravenous administration of DAMGO (100 microg/kg) alone or coupled with a previous local injection of CTAP. Microinjecting DAMGO into the cMRR or mMRR but not the rMRR significantly attenuated the HVR. However, systemic DAMGO-induced HVR attenuation was not significantly affected by pretreating the cMRR and mMRR with CTAP. Our data suggest that cMRR and mMRR mu-receptors are capable of depressing the HVR, while their contribution to the attenuated HVR by systemic DAMGO is limited.
摘要
阿片类药物可通过作用于中枢μ型阿片受体来减弱外周化学感受器介导的低氧通气反应(HVR)。由于延髓中缝区(MRR)表达丰富的μ受体并参与调节HVR,我们测试了尾侧、内侧和头侧MRR(cMRR、mMRR和rMRR)内的μ受体在调节HVR中的作用。我们在向MRR局部微量注射DAMGO以及单独静脉注射DAMGO(100μg/kg)或联合先前局部注射CTAP之前和之后,记录了麻醉大鼠的心肺活动及其对等碳酸性低氧的反应。向cMRR或mMRR而非rMRR微量注射DAMGO可显著减弱HVR。然而,用CTAP预处理cMRR和mMRR对全身DAMGO诱导的HVR减弱没有显著影响。我们的数据表明,cMRR和mMRR的μ受体能够抑制HVR,而它们对全身DAMGO引起的HVR减弱的作用有限。
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