Kang Ju Wan, Lee Yong Hyuk, Kang Min Jeong, Lee Hyun Jae, Oh Ryung, Min Hyun Jin, Namkung Wan, Choi Jae Young, Lee Sang Nam, Kim Chang-Hoon, Yoon Joo-Heon, Cho Hyung-Ju
Department of Otorhinolaryngology, Jeju National University College of Medicine, Jeju, Korea; and.
Department of Medicine, Yonsei University Graduate School, Seoul, Korea.
Am J Physiol Lung Cell Mol Physiol. 2017 Sep 1;313(3):L466-L476. doi: 10.1152/ajplung.00103.2017. Epub 2017 May 25.
Histamine is an important mediator of allergic reactions, and mucus hypersecretion is a major allergic symptom. However, the direct effect of histamine on mucus secretion from airway mucosal epithelia has not been clearly demonstrated. TMEM16A is a Ca-activated chloride channel, and it is closely related to fluid secretion in airway mucosal epithelia. We investigated whether histamine directly induces fluid secretion from epithelial cells or submucosal glands (SMG) and mechanisms related, therewith, in allergic airway diseases. In pig airway tissues from the nose or trachea, histamine was a potent secretagogue that directly induced strong responses. However, gland secretion from human nasal tissue was not induced by histamine, even in allergic rhinitis patients. Histamine type 1 receptor (H1R) and histamine type 2 receptor (H2R) were not noted in SMG by in situ hybridization. Cultured primary human nasal epithelial (NHE) cells were used for the measurement of short-circuit current changes with the Ussing chamber. Histamine-induced slight responses of anion secretions under normal conditions. The response was enhanced by IL-4 stimulation through TMEM16A, which might be related to fluid hypersecretion in allergic rhinitis. Pretreatment with IL-4 augmented the histamine response that was suppressed by a TMEM16A inhibitor. TMEM16A expression was enhanced by 24-h treatment of IL-4 in human nasal epithelial cells. The expression of TMEM16A was significantly elevated in an allergic rhinitis group, compared with a control group. We elucidated histamine-induced fluid secretions in synergy with IL-4 through TMEM16A in the human airway epithelium. In addition, we observed species differences between pigs and humans in terms of gland secretion of histamine.
组胺是过敏反应的重要介质,黏液分泌过多是主要的过敏症状。然而,组胺对气道黏膜上皮细胞黏液分泌的直接作用尚未得到明确证实。TMEM16A是一种钙激活氯离子通道,与气道黏膜上皮细胞的液体分泌密切相关。我们研究了组胺是否直接诱导上皮细胞或黏膜下腺(SMG)的液体分泌以及与之相关的机制,这些机制存在于过敏性气道疾病中。在猪的鼻或气管气道组织中,组胺是一种有效的促分泌剂,可直接诱导强烈反应。然而,即使在过敏性鼻炎患者中,组胺也不会诱导人鼻组织的腺体分泌。通过原位杂交在SMG中未发现1型组胺受体(H1R)和2型组胺受体(H2R)。培养的原代人鼻上皮(NHE)细胞用于用尤斯灌流小室测量短路电流变化。在正常条件下,组胺诱导阴离子分泌的轻微反应。通过TMEM16A的IL-4刺激增强了该反应,这可能与过敏性鼻炎中的液体分泌过多有关。IL-4预处理增强了被TMEM16A抑制剂抑制的组胺反应。在人鼻上皮细胞中,IL-4处理24小时可增强TMEM16A的表达。与对照组相比,过敏性鼻炎组中TMEM16A的表达显著升高。我们阐明了在人气道上皮中组胺通过TMEM16A与IL-4协同诱导液体分泌。此外,我们观察到猪和人在组胺腺体分泌方面的种属差异。
