治疗相关锂浓度引起的星形胶质细胞碱化：对肌醇消耗的影响。

Astrocytic alkalinization by therapeutically relevant lithium concentrations: implications for myo-inositol depletion.

作者信息

Song Dan, Du Ting, Li Baoman, Cai Liping, Gu Li, Li Hongmei, Chen Ye, Hertz Leif, Peng Liang

机构信息

Department of Clinical Pharmacology, College of Basic Medical Sciences, China Medical University, Shenyang, People's Republic of China.

出版信息

Psychopharmacology (Berl). 2008 Oct;200(2):187-95. doi: 10.1007/s00213-008-1194-8. Epub 2008 May 28.

DOI:10.1007/s00213-008-1194-8

PMID:18506424

Abstract

RATIONALE

One theory for therapeutic effects of the lithium ion (Li+) in bipolar disorder is that myo-inositol, needed for phospholipase C-mediated signaling, is depleted by Li(+)-induced inhibition of inositolphosphate hydrolysis or of myo-inositol uptake, an effect demonstrated in cultured mouse astrocytes at high myo-inositol concentrations. In contrast, myo-inositol uptake is inhibited at low concentrations, reflecting that it occurs both by the high-affinity Na(+)-dependent myo-inositol transporter (SMIT) and the lower-affinity H(+)-dependent inositol transporter (HMIT). Increased intracellular pH (pHi) stimulates SMIT but inhibits HMIT, suggesting that the effect of Li+ could be caused by intracellular alkalinization. In this study, we therefore investigated Li+ effects on intracellular pH in astrocytes, measured by 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF) fluorescence.

RESULTS

Chronic treatment with the therapeutically relevant Li+ concentration of 1 mM for 2 or 3 weeks increased pHi by approximately 0.10, whereas 0.5 mM was ineffective, and 2 mM caused a larger increase. The alkalinization resulted from acute stimulation of the Na+/H+ exchanger (NHE) by extracellular Li+, demonstrated after acid load with NH4Cl. In response to continuous stimulation, NHE1 mRNA was down-regulated, but protein was not.

CONCLUSIONS

Chronic treatment with pharmacologically relevant Li+ concentrations increases pHi in astrocytes, creating conditions for decreased uptake of high myo-inositol concentrations and increased uptake of low concentrations. The pharmacological relevance of this effect is supported by literature data suggesting brain acidosis in bipolar patients and by preliminary observations that carbamazepine and valproate also increase pHi in astrocytes. Stimulation of NHE1-stimulated sodium ion uptake might also trigger uptake of chloride ions and osmotically obliged water.

摘要

原理

锂离子（Li+）治疗双相情感障碍的一种理论是，磷脂酶C介导的信号传导所需的肌醇，会因Li+诱导的肌醇磷酸水解或肌醇摄取抑制而耗尽，这种效应在高肌醇浓度的培养小鼠星形胶质细胞中得到证实。相比之下，低浓度时肌醇摄取受到抑制，这表明它是通过高亲和力的Na+依赖性肌醇转运体（SMIT）和低亲和力的H+依赖性肌醇转运体（HMIT）共同发生的。细胞内pH值（pHi）升高会刺激SMIT，但抑制HMIT，这表明Li+的作用可能是由细胞内碱化引起的。因此，在本研究中，我们通过2',7'-双（2-羧乙基）-5（6）-羧基荧光素（BCECF）荧光测量，研究了Li+对星形胶质细胞内pH的影响。

结果

用治疗相关浓度1 mM的Li+慢性处理2或3周，可使pHi升高约0.10，而0.5 mM无效，2 mM则导致更大幅度的升高。碱化是由细胞外Li+对Na+/H+交换体（NHE）的急性刺激引起的，在用NH4Cl进行酸负荷后得到证实。对持续刺激的反应中，NHE1 mRNA下调，但蛋白质未下调。

结论

用药理学相关浓度的Li+进行慢性处理会使星形胶质细胞内的pHi升高，为高浓度肌醇摄取减少和低浓度肌醇摄取增加创造条件。文献数据表明双相情感障碍患者存在脑酸中毒，以及卡马西平和丙戊酸盐也会使星形胶质细胞内的pHi升高的初步观察结果，支持了这种效应的药理学相关性。NHE1刺激的钠离子摄取的刺激也可能触发氯离子和渗透必需水的摄取。

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治疗相关锂浓度引起的星形胶质细胞碱化：对肌醇消耗的影响。

Astrocytic alkalinization by therapeutically relevant lithium concentrations: implications for myo-inositol depletion.

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