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缺乏G蛋白偶联内向整流钾通道GIRK2的小鼠小脑发育正常,但易患癫痫。

Normal cerebellar development but susceptibility to seizures in mice lacking G protein-coupled, inwardly rectifying K+ channel GIRK2.

作者信息

Signorini S, Liao Y J, Duncan S A, Jan L Y, Stoffel M

机构信息

Laboratory of Metabolic Diseases, Rockefeller University, New York, NY 10021, USA.

出版信息

Proc Natl Acad Sci U S A. 1997 Feb 4;94(3):923-7. doi: 10.1073/pnas.94.3.923.

DOI:10.1073/pnas.94.3.923
PMID:9023358
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC19615/
Abstract

G protein-gated, inwardly rectifying K+ channels (GIRK) are effectors of G protein-coupled receptors for neurotransmitters and hormones and may play an important role in the regulation of neuronal excitability. GIRK channels may be important in neurodevelopment, as suggested by the recent finding that a point mutation in the pore region of GIRK2 (G156S) is responsible for the weaver (wv) phenotype. The GIRK2 G156S gene gives rise to channels that exhibit a loss of K+ selectivity and may also exert dominant-negative effects on G(betagamma)-activated K+ currents. To investigate the physiological role of GIRK2, we generated mutant mice lacking GIRK2. Unlike wv/wv mutant mice, GIRK2 -/- mice are morphologically indistinguishable from wild-type mice, suggesting that the wv phenotype is likely due to abnormal GIRK2 function. Like wv/wv mice, GIRK2 -/- mice have much reduced GIRK1 expression in the brain. They also develop spontaneous seizures and are more susceptible to pharmacologically induced seizures using a gamma-aminobutyric acid antagonist. Moreover, wv/- mice exhibit much milder cerebellar abnormalities than wv/wv mice, indicating a dosage effect of the GIRK2 G156S mutation. Our results indicate that the weaver phenotypes arise from a gain-of-function mutation of GIRK2 and that GIRK1 and GIRK2 are important mediators of neuronal excitability in vivo.

摘要

G蛋白门控内向整流钾通道(GIRK)是神经递质和激素的G蛋白偶联受体的效应器,可能在调节神经元兴奋性中发挥重要作用。GIRK通道在神经发育中可能很重要,最近的一项发现表明,GIRK2孔区的一个点突变(G156S)导致了weaver(wv)表型,这一发现暗示了这一点。GIRK2 G156S基因产生的通道表现出钾离子选择性丧失,并且可能对Gβγ激活的钾电流产生显性负效应。为了研究GIRK2的生理作用,我们培育了缺乏GIRK2的突变小鼠。与wv/wv突变小鼠不同,GIRK2 -/-小鼠在形态上与野生型小鼠没有区别,这表明wv表型可能是由于GIRK2功能异常所致。与wv/wv小鼠一样,GIRK2 -/-小鼠大脑中的GIRK1表达也大大降低。它们还会出现自发性癫痫发作,并且使用γ-氨基丁酸拮抗剂更容易受到药物诱导的癫痫发作的影响。此外,wv/-小鼠的小脑异常比wv/wv小鼠要轻得多,这表明GIRK2 G156S突变存在剂量效应。我们的结果表明,weaver表型源于GIRK2的功能获得性突变,并且GIRK1和GIRK2是体内神经元兴奋性的重要介质。

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