一氧化碳揭示了猫颈动脉体中氧气化学感受的双重机制。

CO reveals dual mechanisms of O2 chemoreception in the cat carotid body.

作者信息

Lahiri S, Iturriaga R, Mokashi A, Ray D K, Chugh D

机构信息

Department of Physiology, University of Pennsylvania School of Medicine, Philadelphia 19104-6085.

出版信息

Respir Physiol. 1993 Nov;94(2):227-40. doi: 10.1016/0034-5687(93)90050-k.

DOI:10.1016/0034-5687(93)90050-k

PMID:8272593

Abstract

The hypothesis that CO-binding pigments in the carotid body participate in O2 chemoreception was tested. The chemosensory nerve discharges of cat carotid body perfused and superfused in vitro at 36-37 degrees C with cell-free solution containing CO2-HCO3- (pH approximately equal to 7.39) were recorded to monitor O2 chemoreception. Several levels of PCO (60-550 Torr) at two levels of PO2 (50 Torr-140 Torr) were used. With high PCO of 500-550 Torr at any PO2 the discharge rate peaked promptly but the effect was significantly less than that to hypoxia. At any stage of the CO effect, exposure to light promptly attenuated or eliminated the response, as if the stimulatory effect of hypoxia was absent. Lower PCO of 60-70 Torr attenuated the response to hypoxia which was not suppressed by light. PCO of 140 Torr also attenuated the response to hypoxia and made the activity partially photolabile. During high PCO exposure the excitatory response to cyanide but not to nicotine was attenuated, consistent with the idea that the effects of nicotine are downstream from those of CO. Both inhibitory and excitatory effects of CO were promptly reversible. The results indicate that two types of CO-binding chromophores participate in O2 chemoreception in the carotid body.

摘要

对颈动脉体中一氧化碳结合色素参与氧气化学感受这一假说进行了验证。记录了在36 - 37摄氏度下用含二氧化碳 - 碳酸氢根（pH约等于7.39）的无细胞溶液进行体外灌注和超灌注的猫颈动脉体的化学感受神经放电，以监测氧气化学感受。在两种氧分压水平（50 Torr - 140 Torr）下使用了几个一氧化碳分压水平（60 - 550 Torr）。在任何氧分压下，当一氧化碳分压为500 - 550 Torr时，放电率迅速达到峰值，但该效应明显小于对缺氧的反应。在一氧化碳效应的任何阶段，暴露于光下会迅速减弱或消除反应，就好像缺氧的刺激效应不存在一样。一氧化碳分压为60 - 70 Torr时会减弱对缺氧的反应，且该反应不会被光抑制。一氧化碳分压为140 Torr时也会减弱对缺氧的反应，并使活动部分对光敏感。在高一氧化碳分压暴露期间，对氰化物的兴奋反应减弱，但对尼古丁的反应未减弱，这与尼古丁的作用在一氧化碳作用下游的观点一致。一氧化碳的抑制和兴奋作用都是迅速可逆的。结果表明，两种类型的一氧化碳结合发色团参与了颈动脉体中的氧气化学感受。

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一氧化碳揭示了猫颈动脉体中氧气化学感受的双重机制。

CO reveals dual mechanisms of O2 chemoreception in the cat carotid body.

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