钠离子对海人藻酸受体调节的分子基础

Molecular basis of kainate receptor modulation by sodium.

作者信息

Plested Andrew J R, Vijayan Ranjit, Biggin Philip C, Mayer Mark L

机构信息

Laboratory of Cellular and Molecular Neurophysiology, Porter Neuroscience Research Center, NICHD, NIH, DHHS, Bethesda, MD 20892, USA.

出版信息

Neuron. 2008 Jun 12;58(5):720-35. doi: 10.1016/j.neuron.2008.04.001.

DOI:10.1016/j.neuron.2008.04.001

PMID:18549784

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2575105/

Abstract

Membrane proteins function in a polarized ionic environment with sodium-rich extracellular and potassium-rich intracellular solutions. Glutamate receptors that mediate excitatory synaptic transmission in the brain show unusual sensitivity to external ions, resulting in an apparent requirement for sodium in order for glutamate to activate kainate receptors. Here, we solve the structure of the Na(+)-binding sites and determine the mechanism by which allosteric anions and cations regulate ligand-binding dimer stability, and hence the rate of desensitization and receptor availability for gating by glutamate. We establish a stoichiometry for binding of 2 Na(+) to 1 Cl(-) and show that allosteric anions and cations bind at physically discrete sites with strong electric fields, that the binding sites are not saturated in CSF, and that the requirement of kainate receptors for Na(+) occurs simply because other cations bind with lower affinity and have lower efficacy compared to Na(+).

摘要

膜蛋白在极化的离子环境中发挥作用，细胞外富含钠，细胞内富含钾。介导大脑中兴奋性突触传递的谷氨酸受体对外部离子表现出异常的敏感性，导致谷氨酸激活海人酸受体明显需要钠。在这里，我们解析了钠离子结合位点的结构，并确定了变构阴离子和阳离子调节配体结合二聚体稳定性的机制，从而确定脱敏速率和谷氨酸门控受体可用性的机制。我们确定了2个钠离子与1个氯离子结合的化学计量关系，并表明变构阴离子和阳离子在具有强电场的物理离散位点结合，这些结合位点在脑脊液中不饱和，海人酸受体对钠离子的需求仅仅是因为其他阳离子与钠离子相比结合亲和力较低且效力较低。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0d11/2575105/d450d3640952/nihms55446f1.jpg

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