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本文引用的文献

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GABA: a pioneer transmitter that excites immature neurons and generates primitive oscillations.γ-氨基丁酸:一种能兴奋未成熟神经元并产生原始振荡的先驱性神经递质。
Physiol Rev. 2007 Oct;87(4):1215-84. doi: 10.1152/physrev.00017.2006.
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NKCC1 phosphorylation stimulates neurite growth of injured adult sensory neurons.NKCC1磷酸化刺激成年受损感觉神经元的轴突生长。
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Optical imaging of Ca2+-evoked fluid secretion by murine nasal submucosal gland serous acinar cells.小鼠鼻黏膜下腺浆液性腺泡细胞Ca2+诱发液体分泌的光学成像。
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The role of volume-sensitive ion transport systems in regulation of epithelial transport.容积敏感离子转运系统在调节上皮运输中的作用。
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Dissociation of dorsal root ganglion neurons induces hyperexcitability that is maintained by increased responsiveness to cAMP and cGMP.背根神经节神经元的去分化诱导了过度兴奋,这种过度兴奋通过对环磷酸腺苷(cAMP)和环磷酸鸟苷(cGMP)反应性的增加得以维持。
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6
WNK protein kinases modulate cellular Cl- flux by altering the phosphorylation state of the Na-K-Cl and K-Cl cotransporters.WNK蛋白激酶通过改变钠钾氯共转运体和钾氯共转运体的磷酸化状态来调节细胞氯离子通量。
Physiology (Bethesda). 2006 Oct;21:326-35. doi: 10.1152/physiol.00015.2006.
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SPAK and OSR1, key kinases involved in the regulation of chloride transport.SPAK和OSR1,参与氯离子转运调节的关键激酶。
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Role of the Na+-K+-2Cl- cotransporter in the development of capsaicin-induced neurogenic inflammation.钠-钾-2氯共转运体在辣椒素诱导的神经源性炎症发展中的作用。
J Neurophysiol. 2006 Jun;95(6):3553-61. doi: 10.1152/jn.01091.2005.
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John Eccles' studies of spinal cord presynaptic inhibition.约翰·埃克尔斯对脊髓突触前抑制的研究。
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10
Shunting versus inactivation: simulation of GABAergic inhibition in spider mechanoreceptors suggests that either is sufficient.分流与失活:蜘蛛机械感受器中GABA能抑制的模拟表明二者任一都足够。
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大鼠初级感觉神经元中的钠钾氯协同转运与细胞内氯离子调节:热力学和动力学方面

Na+,K+,2Cl- cotransport and intracellular chloride regulation in rat primary sensory neurons: thermodynamic and kinetic aspects.

作者信息

Rocha-González Héctor I, Mao Shihong, Alvarez-Leefmans Francisco J

机构信息

Department of Pharmacology and Toxicology, Wright State University, Boonshoft School of Medicine, Dayton, Ohio 45435-0001, USA.

出版信息

J Neurophysiol. 2008 Jul;100(1):169-84. doi: 10.1152/jn.01007.2007. Epub 2008 Apr 2.

DOI:10.1152/jn.01007.2007
PMID:18385481
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2493498/
Abstract

Adult primary afferent neurons are depolarized by GABA throughout their entire surface, including their somata located in dorsal root ganglia (DRG). Primary afferent depolarization (PAD) mediated by GABA released from spinal interneurons determines presynaptic inhibition, a key mechanism in somatosensory processing. The depolarization is due to Cl(-) efflux through GABA(A) channels; the outward Cl(-) gradient is generated by a Na+,K+,2Cl(-) cotransporter (NKCC) as first established in amphibians. Using fluorescence imaging microscopy we measured [Cl(-)]i and cell water volume (CWV) in dissociated rat DRG cells (P0-P21) loaded with N-(ethoxycarbonylmethyl)-6-methoxyquinolinium bromide and calcein, respectively. Basal [Cl(-)]i was 44.2 +/- 1.2 mM (mean +/- SE), Cl(-) equilibrium potential (E Cl) was -27.0 +/- 0.7 mV (n = 75). This [Cl(-)]i is about four times higher than electrochemical equilibrium. On isosmotic removal of external Cl(-), cells lost Cl(-) and shrank. On returning to control solution, cells reaccumulated Cl(-) and recovered CWV. Cl(-) reaccumulation had Na+-dependent (SDC) and Na+-independent (SIC) components. The SIC stabilized at [Cl(-)]i = 13.2 +/- 1.2 mM, suggesting that it was passive (E(Cl) = -60.5 +/- 3 mV). Bumetanide blocked CWV recovery and most (65%) of the SDC (IC50 = 5.7 microM), indicating that both were mediated by NKCC. Active Cl(-) uptake fell with increasing [Cl(-)]i and became negligible when [Cl(-)]i reached basal levels. The kinetics of active Cl(-) uptake suggests a negative feedback system in which intracellular Cl(-)regulates its own influx thereby keeping [Cl(-)]i constant, above electrochemical equilibrium but below the value that would attain if NKCC reached thermodynamic equilibrium.

摘要

成年初级传入神经元在其整个表面,包括位于背根神经节(DRG)的胞体,都被GABA去极化。由脊髓中间神经元释放的GABA介导的初级传入去极化(PAD)决定了突触前抑制,这是躯体感觉处理中的一个关键机制。这种去极化是由于Cl⁻通过GABA(A)通道外流;向外的Cl⁻梯度是由Na⁺,K⁺,2Cl⁻共转运体(NKCC)产生的,这一机制最早在两栖动物中被证实。我们使用荧光成像显微镜分别测量了加载有N-(乙氧羰基甲基)-6-甲氧基喹啉溴化物和钙黄绿素的解离大鼠DRG细胞(P0 - P21)中的[Cl⁻]i和细胞水体积(CWV)。基础[Cl⁻]i为44.2±1.2 mM(平均值±标准误),Cl⁻平衡电位(E Cl)为 - 27.0±0.7 mV(n = 75)。这个[Cl⁻]i比电化学平衡值高约四倍。在等渗去除细胞外Cl⁻时,细胞失去Cl⁻并收缩。回到对照溶液后,细胞重新积累Cl⁻并恢复CWV。Cl⁻的重新积累有Na⁺依赖(SDC)和Na⁺非依赖(SIC)成分。SIC在[Cl⁻]i = 13.2±1.2 mM时稳定下来,这表明它是被动的(E(Cl) = - 60.5±3 mV)。布美他尼阻断了CWV恢复以及大部分(65%)的SDC(IC50 = 5.7 μM),表明两者均由NKCC介导。主动Cl⁻摄取随着[Cl⁻]i的增加而下降,当[Cl⁻]i达到基础水平时变得可以忽略不计。主动Cl⁻摄取的动力学表明存在一个负反馈系统,其中细胞内Cl⁻调节其自身的内流,从而使[Cl⁻]i保持恒定,高于电化学平衡但低于NKCC达到热力学平衡时所能达到的值。