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大鼠味觉受体细胞中的基底外侧钠氢交换体-1参与对酸性刺激的神经适应。

Basolateral Na+-H+ exchanger-1 in rat taste receptor cells is involved in neural adaptation to acidic stimuli.

作者信息

Lyall Vijay, Alam Rammy I, Malik Shahbaz A, Phan Tam-Hao T, Vinnikova Anna K, Heck Gerard L, DeSimone John A

机构信息

Department of Physiology, Virginia Commonwealth University, Sanger Hall 3002, 1101 E. Marshall Street, Richmond, VA 23298-0551, USA.

出版信息

J Physiol. 2004 Apr 1;556(Pt 1):159-73. doi: 10.1113/jphysiol.2003.057745. Epub 2004 Jan 14.

DOI:10.1113/jphysiol.2003.057745
PMID:14724181
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1664893/
Abstract

The role of basolateral Na(+)-H(+) exchanger isoform-1 (NHE-1) was investigated in neural adaptation of rat taste responses to acidic stimuli, by direct measurement of intracellular pH (pH(i)) in polarized taste receptor cells (TRCs) and by chorda tympani (CT) taste nerve recordings. In TRCs perfused with CO(2)/HCO(3)(-)-free solution (pH 7.4), removal of basolateral Na(+) decreased pH(i) reversibly and zoniporide, a specific NHE-1 blocker, inhibited the Na(+)-induced changes in pH(i). The spontaneous rate of TRC pH(i) recovery from NH(4)Cl pulses was inhibited by basolateral zoniporide with a K(i) of 0.33microm. Exposure to basolateral ionomycin, reversibly increased TRC Ca(2+), resting pH(i), and the spontaneous rate of pH(i) recovery from an NH(4)Cl pulse. These effects of Ca(2+) on pH(i) were blocked by zoniporide. In in vivo experiments, topical lingual application of zoniporide increased the magnitude of the CT responses to acetic acid and CO(2), but not to HCl. Topical lingual application of ionomycin did not affect the phasic part of the CT responses to acidic stimuli, but decreased the tonic part by 50% of control over a period of about 1 min. This increased adaptation in the CT response was inhibited by zoniporide. Topical lingual application of 8-CPT-cAMP increased the CT responses to HCl, but not to CO(2), and acetic acid. In the presence of cAMP, ionomycin increased sensory adaptation to HCl, CO(2), and acetic acid. Thus, cAMP and Ca(2+) independently modulate CT responses to acidic stimuli. While cAMP enhances TRC apical H(+) entry and CT responses to strong acid, an increase in Ca(2+) activates NHE-1, and increases neural adaptation to all acidic stimuli.

摘要

通过直接测量极化味觉受体细胞(TRC)内的细胞内pH值(pH(i))以及通过鼓索(CT)味觉神经记录,研究了基底外侧Na(+)-H(+)交换体同工型-1(NHE-1)在大鼠味觉对酸性刺激的神经适应中的作用。在灌注无CO(2)/HCO(3)(-)溶液(pH 7.4)的TRC中,去除基底外侧Na(+)会使pH(i)可逆性降低,而特异性NHE-1阻滞剂唑尼泊酯可抑制Na(+)诱导的pH(i)变化。基底外侧唑尼泊酯抑制了TRC从NH(4)Cl脉冲中恢复pH(i)的自发速率,其抑制常数K(i)为0.33微摩尔。暴露于基底外侧离子霉素可使TRC Ca(2+)、静息pH(i)以及从NH(4)Cl脉冲中恢复pH(i)的自发速率可逆性增加。Ca(2+)对pH(i)的这些作用被唑尼泊酯阻断。在体内实验中,舌局部应用唑尼泊酯可增加CT对乙酸和CO(2)的反应幅度,但对HCl无影响。舌局部应用离子霉素不影响CT对酸性刺激的时相部分反应,但在约1分钟的时间内使紧张性部分反应比对照降低50%。CT反应中这种增强的适应性被唑尼泊酯抑制。舌局部应用8-CPT-cAMP可增加CT对HCl的反应,但对CO(2)和乙酸无影响。在存在cAMP的情况下,离子霉素增加了对HCl、CO(2)和乙酸的感觉适应。因此,cAMP和Ca(2+)独立调节CT对酸性刺激的反应。虽然cAMP增强TRC顶端H(+)内流和CT对强酸的反应,但Ca(2+)增加会激活NHE-并增加对所有酸性刺激的神经适应。

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