血管纹中的胃H,K-ATP酶有助于调节耳蜗内淋巴的pH值，但与K的分泌无关。

Q1 Biochemistry, Genetics and Molecular Biology

BMC Physiology Pub Date : 2016-08-11 DOI:10.1186/s12899-016-0024-1

Hiromitsu Miyazaki, Philine Wangemann, Daniel C Marcus

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引用次数: 0

摘要

背景：众所周知，内耳酸碱平衡失调与多种情况下的听力损失有关，包括基因突变和药物干预。之前的一些生理和免疫组化观察结果表明，血管横纹中存在酸碱转运体：结果：我们使用新型恒定灌注 pH 选择性自参照探针直接测量了体外从成年 C57Bl/6 小鼠离体血管纹顶端侧流出的酸量。从血管纹顶部观察到的酸流出取决于新陈代谢和离子转运。通过移除代谢底物（无葡萄糖）和抑制钠泵（乌阿巴因），酸流出量降至对照组的 40%左右。a) 阿米洛利、二甲基阿米洛利（DMA）、S3226 和 Hoe694 对 Na、H 交换的抑制，b) 布美他尼对 Na、2Cl、K 共转运体（NKCC1）的抑制，以及 c) DIDS 对 HCO3/阴离子交换的可能抑制，也会降低酸通量。相比之下，抑制胃 H、K-ATP 酶（SCH28080）会增加酸通量，但 vH-ATP 酶抑制剂（巴非罗霉素）不会影响酸通量。血管横纹的 K 通量在 SCH28080 的作用下减少不到 5%：这些观察结果表明，血管横纹可能是控制耳蜗酸碱平衡的重要部位，并证明了血管横纹中几种酸碱转运体的功能作用，包括基底侧的 H、K-ATP 酶和顶端的 Na、H 交换。以前有人认为血管横纹中 H 的分泌是由顶端的 vH-ATPase 介导的，而基底侧的 H、K-ATPase 对 K 的分泌有重要作用，但这些观点都不成立。这些结果加深了我们对内耳酸碱平衡的理解，为解释受内耳pH影响的遗传和药物耳蜗功能障碍的病因提供了更坚实的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

The gastric H,K-ATPase in stria vascularis contributes to pH regulation of cochlear endolymph but not to K secretion.

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The gastric H,K-ATPase in stria vascularis contributes to pH regulation of cochlear endolymph but not to K secretion.

Background: Disturbance of acid-base balance in the inner ear is known to be associated with hearing loss in a number of conditions including genetic mutations and pharmacologic interventions. Several previous physiologic and immunohistochemical observations lead to proposals of the involvement of acid-base transporters in stria vascularis.

Results: We directly measured acid flux in vitro from the apical side of isolated stria vascularis from adult C57Bl/6 mice with a novel constant-perfusion pH-selective self-referencing probe. Acid efflux that depended on metabolism and ion transport was observed from the apical side of stria vascularis. The acid flux was decreased to about 40 % of control by removal of the metabolic substrate (glucose-free) and by inhibition of the sodium pump (ouabain). The flux was also decreased a) by inhibition of Na,H-exchangers by amiloride, dimethylamiloride (DMA), S3226 and Hoe694, b) by inhibition of Na,2Cl,K-cotransporter (NKCC1) by bumetanide, and c) by the likely inhibition of HCO3/anion exchange by DIDS. By contrast, the acid flux was increased by inhibition of gastric H,K-ATPase (SCH28080) but was not affected by an inhibitor of vH-ATPase (bafilomycin). K flux from stria vascularis was reduced less than 5 % by SCH28080.

Conclusions: These observations suggest that stria vascularis may be an important site of control of cochlear acid-base balance and demonstrate a functional role of several acid-base transporters in stria vascularis, including basolateral H,K-ATPase and apical Na,H-exchange. Previous suggestions that H secretion is mediated by an apical vH-ATPase and that basolateral H,K-ATPase contributes importantly to K secretion in stria vascularis are not supported. These results advance our understanding of inner ear acid-base balance and provide a stronger basis to interpret the etiology of genetic and pharmacologic cochlear dysfunctions that are influenced by endolymphatic pH.

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来源期刊

BMC Physiology Biochemistry, Genetics and Molecular Biology-Physiology

CiteScore

9.60

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0.00%

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期刊介绍： BMC Physiology is an open access journal publishing original peer-reviewed research articles in cellular, tissue-level, organismal, functional, and developmental aspects of physiological processes. BMC Physiology (ISSN 1472-6793) is indexed/tracked/covered by PubMed, MEDLINE, BIOSIS, CAS, EMBASE, Scopus, Zoological Record and Google Scholar.