Integration of sodium and osmosensory signals in vasopressin neurons.

Voisin DL; Bourque CW

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Integration of sodium and osmosensory signals in vasopressin neurons.

机译：钠和渗透压信号在加压素神经元中的整合。

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Vasopressin (antidiuretic hormone) release has been thought to be controlled by interacting osmoreceptors and Na(+)-detectors for > 20 years. Only recently, however, have molecular and cellular advances revealed how changes in the external concentration of Na+ and osmolality are detected during acute and chronic osmotic perturbations. In rat vasopressin-containing neurons, local osmosensitivity is conferred by intrinsic stretch-inactivated cation channels and by taurine release from surrounding glia. Na+ detection is accomplished by acute regulation of the permeability of stretch-inactivated channels and by changes in Na+ channel gene expression. These features provide a first glimpse of the integrative processes at work in a central osmoregulatory reflex.

机译：血管加压素（抗利尿激素）的释放被认为是由渗透压感受器和Na（+）-检测剂相互作用> 20年所控制的。然而，直到最近，分子和细胞的研究才揭示出在急性和慢性渗透性扰动中如何检测到Na +的外部浓度和重量摩尔渗透压浓度的变化。在含有大鼠加压素的神经元中，内在的拉伸失活的阳离子通道和牛磺酸从周围神经胶质的释放赋予局部渗透敏感性。 Na +检测是通过对拉伸失活通道的通透性进行急性调节并通过改变Na +通道基因表达来实现的。这些功能提供了对中央渗透调节反射的工作过程的初步了解。

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《Trends in Neurosciences 》 |2002年第4期| 共7页
作者
Voisin DL; Bourque CW;
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正文语种 eng
中图分类神经病学与精神病学 ;
关键词
Hypothalamo-Hypophyseal System; Hypothalamus; Neurons; Sodium; Vasopressins; 下丘脑-垂体系统; 下丘脑; 神经元; 钠; 血管升压素类; 水电解质平衡;

机译：Hypothalamo-Hypophyseal System;Hypothalamus;Neurons;Sodium;Vasopressins;下丘脑-垂体系统;下丘脑;神经元;钠;血管升压素类;水电解质平衡;

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1. Integration of sodium and osmosensory signals in vasopressin neurons. [J] . Voisin DL, Bourque CW Trends in Neurosciences . 2002 ,第4期

机译：钠和渗透压信号在加压素神经元中的整合。
2. Sodium along with low-threshold potassium currents enhance coincidence detection of subthreshold noisy signals in MSO neurons. [J] . Svirskis G, Kotak V, Sanes DH, Journal of Neurophysiology . 2004 ,第6期

机译：钠和低阈值钾电流一起增强了MSO神经元中亚阈值噪声信号的重合检测。
3. Influence of 'feedback' signals on spatial integration in receptive fields of cat area 17 neurons. [J] . Wang C, Huang JY, Bardy C, Brain research . 2010 ,第Null期

机译：“反馈”信号对猫17区神经元感受野中空间整合的影响。
4. Chronic vagal stimulation decreased vasopressin secretion and sodium ingestion in heart failure rats after myocardial infarction [C] . Li, M., Zheng, . 2005

机译：慢性迷走神经刺激可降低心梗大鼠心梗后血管加压素的分泌和钠的摄入
5. Discovery of a novel role of vasopressin in astrocytes: Vasopressin-induced cytoplasmic and nuclear calcium and kinases signaling cascade and modulation of astrocytes immune function. [D] . Zhao, Lixia. 2003

机译：血管加压素在星形胶质细胞中的新作用的发现：加压素诱导的细胞质和细胞核钙和激酶信号传导级联和调节星形胶质细胞的免疫功能。
6. PNAS Plus: Osmosensory signaling in Mycobacterium tuberculosis mediated by a eukaryotic-like Ser/Thr protein kinase [O] . Stavroula K. Hatzios, Christina E. Baer, Tige R. Rustad, 2013

机译：PNAS Plus：结核分枝杆菌中的真核样Ser / Thr蛋白激酶介导的渗透压信号
7. Sugar antennae for guidance signals: syndecans and glypicans integrate directional cues for navigating neurons. [O] . Rhiner, C, Hengartner, M O 2006

机译：指导信号的糖触角：侦查侦查器和Glypicans侦听器集成了用于导航神经元的定向提示。
8. Vasopressin Receptor Signaling and Cycling of Water Channels in Renal Epithelia [R] . Mia, A. J., Yorio, T. 1994

机译：肾上皮细胞加压素受体信号通路及水通道循环

Integration of sodium and osmosensory signals in vasopressin neurons.

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