接受肺动脉闭塞的犬类中的板层小体耗竭

Lamellar body depletion in dogs undergoing pulmonary artery occlusion.

作者信息

Shepard J W, Hauer D, Miyai K, Moser K M

出版信息

J Clin Invest. 1980 Jul;66(1):36-42. doi: 10.1172/JCI109832.

DOI:10.1172/JCI109832

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC371502/

Abstract

We have investigated the relationship between pulmonary artery occlusion (PAO) and the surfactant system of the lung by studying the ultrastructural responses of type II alveolar pneumocytes to PAO of 4-12 h duration in 16 mongrel dogs. In six of these animals, the occluded lung was allowed to reperfuse for 6 h before killing and in four animals subjected to PAO of 4 h duration, the occluded lung was ventilated with 5% CO2 balance air. PAO by itself resulted in a dramatic 80% reduction in the volumetric density of lamellar bodies (LB) in the type II cells. This resulted predominantly from a decrese in volume of the individual LB. Although reperfusion was associated with an increase in LB volume density toward normal, 6 h of reperfusion was insufficient to re-establish normal type II cellular morphology. Ventilation of the occluded lung with 5% CO2 prevented LB depletion indicating that alveolar CO2 tension may affect the release and/or synthesis of LB in type II pneumocytes.

摘要

我们通过研究16只杂种狗肺Ⅱ型肺泡上皮细胞对持续4 - 12小时的肺动脉闭塞（PAO）的超微结构反应，探讨了肺动脉闭塞与肺表面活性物质系统之间的关系。在其中6只动物中，闭塞的肺在处死前进行6小时的再灌注；在4只经历4小时PAO的动物中，闭塞的肺用5%二氧化碳平衡空气进行通气。单纯PAO导致Ⅱ型细胞板层小体（LB）的体积密度急剧降低80%。这主要是由于单个LB体积减小所致。尽管再灌注与LB体积密度向正常水平增加有关，但6小时的再灌注不足以重建Ⅱ型细胞的正常形态。用5%二氧化碳对闭塞的肺进行通气可防止LB耗竭，表明肺泡二氧化碳张力可能影响Ⅱ型肺细胞中LB的释放和/或合成。

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