全层气道活检中神经的形态学特征

Morphologic Characterization of Nerves in Whole-Mount Airway Biopsies.

作者信息

West Peter W, Canning Brendan J, Merlo-Pich Emilio, Woodcock Ashley A, Smith Jaclyn A

机构信息

1 Centre for Respiratory Medicine and Allergy, Faculty of Medical and Human Sciences, University of Manchester, Manchester, United Kingdom.

2 Division of Allergy and Clinical Immunology, Department of Medicine, Johns Hopkins Asthma and Allergy Center, Baltimore, Maryland; and.

出版信息

Am J Respir Crit Care Med. 2015 Jul 1;192(1):30-9. doi: 10.1164/rccm.201412-2293OC.

DOI:10.1164/rccm.201412-2293OC

PMID:25906337

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4511424/

Abstract

RATIONALE

Neuroplasticity of bronchopulmonary afferent neurons that respond to mechanical and chemical stimuli may sensitize the cough reflex. Afferent drive in cough is carried by the vagus nerve, and vagal afferent nerve terminals have been well defined in animals. Yet, both unmyelinated C fibers and particularly the morphologically distinct, myelinated, nodose-derived mechanoreceptors described in animals are poorly characterized in humans. To date there are no distinctive molecular markers or detailed morphologies available for human bronchopulmonary afferent nerves.

OBJECTIVES

Morphologic and neuromolecular characterization of the afferent nerves that are potentially involved in cough in humans.

METHODS

A whole-mount immunofluorescence approach, rarely used in human lung tissue, was used with antibodies specific to protein gene product 9.5 (PGP9.5) and, for the first time in human lung tissue, 200-kD neurofilament subunit.

MEASUREMENTS AND MAIN RESULTS

We have developed a robust technique to visualize fibers consistent with autonomic and C fibers and pulmonary neuroendocrine cells. A group of morphologically distinct, 200-kD neurofilament-immunopositive myelinated afferent fibers, a subpopulation of which did not express PGP9.5, was also identified.

CONCLUSIONS

PGP9.5-immunonegative nerves are strikingly similar to myelinated airway afferents, the cough receptor, and smooth muscle-associated airway receptors described in rodents. These have never been described in humans. Full description of human airway nerves is critical to the translation of animal studies to the clinical setting.

摘要

原理

对机械和化学刺激产生反应的支气管肺传入神经元的神经可塑性可能会使咳嗽反射敏感化。咳嗽中的传入驱动由迷走神经传导，并且迷走神经传入神经末梢在动物中已得到充分定义。然而，无髓鞘C纤维，尤其是动物中描述的形态上不同的、有髓鞘的、源自结节的机械感受器，在人类中的特征描述较少。迄今为止，人类支气管肺传入神经没有独特的分子标记或详细的形态学特征。

目的

对可能参与人类咳嗽的传入神经进行形态学和神经分子特征描述。

方法

采用一种在人类肺组织中很少使用的整装免疫荧光方法，使用针对蛋白基因产物9.5（PGP9.5）的抗体，并且首次在人类肺组织中使用针对200-kD神经丝亚基的抗体。

测量与主要结果

我们开发了一种强大的技术来可视化与自主神经纤维、C纤维和肺神经内分泌细胞一致的纤维。还鉴定出一组形态上不同的、200-kD神经丝免疫阳性的有髓鞘传入纤维，其中一部分不表达PGP9.5。

结论

PGP9.5免疫阴性神经与啮齿动物中描述的有髓鞘气道传入神经、咳嗽感受器和平滑肌相关气道感受器惊人地相似。这些在人类中从未被描述过。对人类气道神经的完整描述对于将动物研究转化为临床应用至关重要。

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