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评估真核细胞无细胞体系中的离子通道组装,重点关注双孔域钾通道 K。

Evaluation of the Ion Channel Assembly in a Eukaryotic Cell-Free System Focusing on Two-Pore Domain Potassium Channels K.

机构信息

Fraunhofer Institute for Cell Therapy and Immunology (IZI), Branch Bioanalytics and Bioprocesses (IZI-BB), Am Mühlenberg 13, 14476 Potsdam, Germany.

Institute of Biotechnology, Technische Universität Berlin, Straße des 17. Juni 135, 10623 Berlin, Germany.

出版信息

Int J Mol Sci. 2023 Mar 27;24(7):6299. doi: 10.3390/ijms24076299.

DOI:10.3390/ijms24076299
PMID:37047271
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10094441/
Abstract

Oligomeric ion channels are abundant in nature. However, the recombinant expression in cell culture-based systems remains tedious and challenging due to negative side effects, limiting the understanding of their role in health and disease. Accordingly, in this work, we demonstrate the cell-free synthesis (CFS) as an alternative platform to study the assembly of two-pore domain potassium channels (K) within endogenous endoplasmic reticulum-derived microsomes. Exploiting the open nature of CFS, we investigate the cotranslational translocation of TREK-2 into the microsomes and suggest a cotranslational assembly with typical single-channel behavior in planar lipid-bilayer electrophysiology. The heteromeric assembly of K channels is a contentious matter, accordingly we prove the successful assembly of TREK-2 with TWIK-1 using a biomolecular fluorescence complementation assay, Western blot analysis and autoradiography. The results demonstrate that TREK-2 homodimer assembly is the initial step, followed by heterodimer formation with the nascent TWIK-1, providing evidence of the intergroup heterodimerization of TREK-2 and TWIK-1 in eukaryotic CFS. Since K channels are involved in various pathophysiological conditions, including pain and nociception, CFS paves the way for in-depth functional studies and related pharmacological interventions. This study highlights the versatility of the eukaryotic CFS platform for investigating ion channel assembly in a native-like environment.

摘要

寡聚离子通道在自然界中大量存在。然而,由于负面的副作用,基于细胞培养的系统中的重组表达仍然繁琐且具有挑战性,这限制了人们对其在健康和疾病中的作用的理解。因此,在这项工作中,我们展示了无细胞合成(CFS)作为一种替代平台,用于研究内源性内质网衍生的微粒体中双孔域钾通道(K)的组装。利用 CFS 的开放性,我们研究了 TREK-2 在内质网微粒体中的共翻译易位,并在平面脂质双层电生理学中提出了具有典型单通道行为的共翻译组装。K 通道的异源二聚体组装是一个有争议的问题,因此我们使用生物分子荧光互补测定法、Western blot 分析和放射自显影证明了 TREK-2 与 TWIK-1 的成功组装。结果表明,TREK-2 同源二聚体组装是初始步骤,随后与新生的 TWIK-1 形成异源二聚体,为 TREK-2 和 TWIK-1 在真核 CFS 中的组间异二聚化提供了证据。由于 K 通道参与各种病理生理状况,包括疼痛和伤害感受,因此 CFS 为深入的功能研究和相关的药理学干预铺平了道路。本研究强调了真核 CFS 平台在研究天然环境中离子通道组装的多功能性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cd8c/10094441/44f50b8ad78c/ijms-24-06299-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cd8c/10094441/5c933411ada4/ijms-24-06299-g001.jpg
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