The University of Queensland, School of Biomedical Sciences, St. Lucia, Queensland, Australia.
J Appl Physiol (1985). 2010 Nov;109(5):1292-300. doi: 10.1152/japplphysiol.00632.2010. Epub 2010 Aug 19.
The airways contain a dense subepithelial microvascular plexus that is involved in the supply and clearance of substances to and from the airway wall. We set out to test the hypothesis that airway smooth muscle reactivity to bronchoconstricting agents may be dependent on airway mucosal blood flow. Immunohistochemical staining identified vasoconstrictor and vasodilator nerve fibers associated with subepithelial blood vessels in the guinea pig airways. Intravital microscopy of the tracheal mucosal microvasculature in anesthetized guinea pigs revealed that blockade of α-adrenergic receptors increased baseline arteriole diameter by ~40%, whereas the α-adrenergic receptor agonist phenylephrine produced a modest (5%) vasoconstriction in excess of the baseline tone. In subsequent in vivo experiments, tracheal contractions evoked by topically applied histamine were significantly reduced (P < 0.05) and enhanced by α-adrenergic receptor blockade and activation, respectively. α-Adrenergic ligands produced similar significant (P < 0.05) effects on airway smooth muscle contractions evoked by topically administered capsaicin, intravenously administered neurokinin A, inhaled histamine, and topically administered antigen in sensitized animals. These responses were independent of any direct effect of α-adrenergic ligands on the airway smooth muscle tone. The data suggest that changes in blood flow in the vessels supplying the airways regulate the reactivity of the underlying airway smooth muscle to locally released and exogenously administered agents by regulating their clearance. We speculate that changes in mucosal vascular function or changes in neuronal regulation of the airway vasculature may contribute to airways responsiveness in disease.
气道含有密集的黏膜下微血管丛,参与气道壁内外物质的供应和清除。我们着手检验一个假说,即气道平滑肌对收缩剂的反应性可能依赖于气道黏膜血流。免疫组织化学染色鉴定了与豚鼠气道黏膜下血管相关的血管收缩和血管舒张神经纤维。麻醉豚鼠气管黏膜微血管的活体显微镜检查显示,α-肾上腺素能受体阻断剂使基线小动脉直径增加约 40%,而α-肾上腺素能受体激动剂苯肾上腺素产生的血管收缩(超过基线张力的 5%)适度。在随后的体内实验中,局部应用组胺引起的气管收缩明显减少(P < 0.05),分别通过α-肾上腺素能受体阻断和激活增强。α-肾上腺素能配体对局部给予辣椒素、静脉内给予神经激肽 A、吸入组胺和致敏动物局部给予抗原引起的气道平滑肌收缩产生类似的显著(P < 0.05)作用。这些反应独立于α-肾上腺素能配体对气道平滑肌张力的任何直接作用。这些数据表明,供应气道的血管中血流的变化通过调节其清除来调节气道平滑肌对局部释放和外源性给予的物质的反应性。我们推测,黏膜血管功能的变化或气道血管神经调节的变化可能导致疾病中的气道反应性。