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毒蕈碱受体诱导的舌下黏液腺泡细胞酸化:钠-氢交换体1缺陷小鼠pH恢复能力丧失

Muscarinic receptor-induced acidification in sublingual mucous acinar cells: loss of pH recovery in Na+-H+ exchanger-1 deficient mice.

作者信息

Nguyen H V, Shull G E, Melvin J E

机构信息

Center for Oral Biology, University of Rochester School of Medicine and Dentistry, Rochester, NY 14642, USA.

出版信息

J Physiol. 2000 Feb 15;523 Pt 1(Pt 1):139-46. doi: 10.1111/j.1469-7793.2000.t01-2-00139.x.

DOI:10.1111/j.1469-7793.2000.t01-2-00139.x
PMID:10673550
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2269782/
Abstract
  1. Intracellular pH (pHi) plays an important role in regulating fluid and electrolyte secretion by salivary gland acinar cells. The pH-sensitive, fluorescent dye 2', 7'-bis(carboxyethyl)-5(6)-carboxylfluorescein (BCECF) was used to characterize the mechanisms involved in regulating pHi during muscarinic stimulation in mouse sublingual mucous acinar cells. 2. In the presence of HCO3-, muscarinic stimulation caused a rapid decrease in pHi (0.24 +/- 0.02 pH units) followed by a slow recovery rate (0.042 +/- 0.002 pH units min-1) to the initial resting pHi in sublingual acinar cells. The muscarinic receptor-induced acidification in parotid acinar cells was of a similar magnitude (0. 25 +/- 0.02 pH units), but in contrast, the recovery rate was approximately 4-fold faster (0.181 +/- 0.005 pH units min-1). 3. The agonist-induced intracellular acidification was inhibited by the anion channel blocker niflumate, and was prevented in the absence of HCO3- by treatment with the carbonic anhydrase inhibitor methazolamide. These results indicate that the muscarinic-induced acidification is due to HCO3- loss, probably mediated by an anion conductive pathway. 4. The Na+-H+ exchange inhibitor 5-(N-ethyl-N-isopropyl)amiloride (EIPA) amplified the magnitude of the agonist-induced acidification and completely blocked the Na+-dependent pHi recovery. 5. To examine the molecular nature of the Na+-H+ exchange mechanism in sublingual acinar cells, pH regulation was investigated in mice lacking Na+-H+ exchanger isoforms 1 and 2 (NHE1 and NHE2, respectively). The magnitude and the rate of pHi recovery in response to an acid load in acinar cells isolated from mice lacking NHE2 were comparable to that observed in cells from wild-type animals. In contrast, targeted disruption of the Nhe1 gene completely abolished pHi recovery from an acid load. These results demonstrate that NHE1 is critical for regulating pHi during a muscarinic agonist-stimulated acid challenge and probably plays an important role in regulating fluid secretion in the sublingual exocrine gland. 6. In NHE1-deficient mice, sublingual acinar cells failed to recover from an acid load in the presence of bicarbonate. These results confirm that the major regulatory mechanism involved in pHi recovery from an acid load is not Na+-HCO3- cotransport, but amiloride-sensitive Na+-H+ exchange via isoform 1.
摘要

  1. 细胞内pH值(pHi)在调节唾液腺腺泡细胞的液体和电解质分泌中起重要作用。使用对pH敏感的荧光染料2',7'-双(羧乙基)-5(6)-羧基荧光素(BCECF)来表征小鼠舌下黏液腺泡细胞在毒蕈碱刺激期间调节pHi所涉及的机制。

  2. 在存在HCO3-的情况下,毒蕈碱刺激导致舌下腺泡细胞的pHi迅速下降(0.24±0.02个pH单位),随后恢复速度缓慢(0.042±0.002个pH单位·分钟-1)至初始静息pHi。腮腺腺泡细胞中毒蕈碱受体诱导的酸化程度相似(0.25±0.02个pH单位),但相比之下,恢复速度快约4倍(0.181±0.005个pH单位·分钟-1)。

  3. 激动剂诱导的细胞内酸化被阴离子通道阻滞剂尼氟灭酸抑制,并且在不存在HCO3-的情况下用碳酸酐酶抑制剂甲醋唑胺处理可防止这种情况。这些结果表明,毒蕈碱诱导的酸化是由于HCO3-丢失,可能由阴离子传导途径介导。

  4. Na+-H+交换抑制剂5-(N-乙基-N-异丙基)氨氯吡脒(EIPA)放大了激动剂诱导的酸化幅度,并完全阻断了Na+依赖性pHi恢复。

  5. 为了研究舌下腺泡细胞中Na+-H+交换机制的分子性质,在缺乏Na+-H+交换异构体1和2(分别为NHE1和NHE2)的小鼠中研究了pH调节。从缺乏NHE2的小鼠分离的腺泡细胞中,对酸负荷的pHi恢复幅度和速率与野生型动物细胞中观察到的相当。相比之下,Nhe1基因的靶向破坏完全消除了酸负荷后的pHi恢复。这些结果表明,NHE1在毒蕈碱激动剂刺激的酸挑战期间调节pHi至关重要,并且可能在调节舌下外分泌腺的液体分泌中起重要作用。

  6. 在NHE1缺陷小鼠中,舌下腺泡细胞在存在碳酸氢盐的情况下无法从酸负荷中恢复。这些结果证实,酸负荷后pHi恢复所涉及的主要调节机制不是Na+-HCO3-共转运,而是通过异构体1的氨氯吡脒敏感的Na+-H+交换。

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