KCC2介导的转运需要两个氯化物结合位点。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-08-23 DOI:10.1016/j.jbc.2023.105190
Lisa Becker, Jens Hausmann, Anna-Maria Hartmann
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引用次数: 0

摘要

K+-Cl-协同转运蛋白2(KCC2)在抑制性神经传递中发挥着重要作用,其损伤与神经和精神疾病有关,包括癫痫、精神分裂症和自闭症。尽管KCCs以1:1的化学计量传输K+和Cl-,但通过冷冻电镜显示了两个Cl-配位位点。在综合分析中,我们分析了Cl1和Cl2中Cl-配位残基的点突变的后果。Cl1和Cl2中残基的个别突变减少或消除了KCC2WT的功能,表明两个Cl-配位位点对KCC2功能起着至关重要的作用。通过插入3xHA标签,细胞外环2的结构变化将K+配位位点切换到另一个位置。为了研究具有3xHA标签的细胞外环2的延伸是否也影响两个Cl-配位位点的配位,我们对KCC2HA构建体中的两个Cl配位位点进行了类似的实验。这些分析表明,KCC2HA构建体中Cl1和Cl2残基的大多数单独突变减少或消除了KCC2功能,表明Cl-的配位保持在相同的位置。然而,Cl1中K+和Cl-的耦合在KCC2HA结构中仍然很明显,表明两种离子相互依赖。此外,Cl2中的配位残基Tyr569在KCC2HA中移位。因此,细胞外结构域的构象变化影响K+和Cl-结合位点。然而,对Cl-结合位点的影响是微妙的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Both chloride-binding sites are required for KCC2-mediated transport.

The K+-Cl- cotransporter 2 (KCC2) plays an important role in inhibitory neurotransmission, and its impairment is associated with neurological and psychiatric disorders, including epilepsy, schizophrenia, and autism. Although KCCs transport K+ and Cl- in a 1:1 stoichiometry, two Cl- coordination sites were indicated via cryo-EM. In a comprehensive analysis, we analyzed the consequences of point mutations of residues coordinating Cl- in Cl1 and Cl2. Individual mutations of residues in Cl1 and Cl2 reduce or abolish KCC2WT function, indicating a crucial role of both Cl- coordination sites for KCC2 function. Structural changes in the extracellular loop 2 by inserting a 3xHA tag switches the K+ coordination site to another position. To investigate, whether the extension of the extracellular loop 2 with the 3xHA tag also affects the coordination of the two Cl- coordination sites, we carried out the analogous experiments for both Cl- coordinating sites in the KCC2HA construct. These analyses showed that most of the individual mutation of residues in Cl1 and Cl2 in the KCC2HA construct reduces or abolishes KCC2 function, indicating that the coordination of Cl- remains at the same position. However, the coupling of K+ and Cl- in Cl1 is still apparent in the KCC2HA construct, indicating a mutual dependence of both ions. In addition, the coordination residue Tyr569 in Cl2 shifted in KCC2HA. Thus, conformational changes in the extracellular domain affect K+ and Cl--binding sites. However, the effect on the Cl--binding sites is subtler.

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