分裂小GTPase重组作为一种方法来控制蜂窝信号与用户定义的输入。

IF 3.8 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

ACS Chemical Biology Pub Date : 2025-08-26 DOI:10.1021/acschembio.5c00083

Yuchen He, Benjamin M. Faulkner, Rachel S. Weatherford, Emily Hyun and Cliff I. Stains*,

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引用次数: 0

摘要

小gtp酶是控制多种细胞功能的关键信号酶，如细胞迁移和增殖。然而，由于缺乏一种即插即用的方法，通过使用用户定义的输入来直接、暂时地控制小的GTPase活性，解剖这些酶在细胞信号传导中的作用受到阻碍。在此，我们提出了一种方法，将分裂小GTPase与用户自定义的二聚化化学诱导剂（CID）系统以即插即用的方式配对，直接控制活细胞中的小GTPase信号。分裂小GTPase系统的模块化允许选择对正在研究的途径具有最小脱靶效应的cid。我们的研究结果强调了通过不同的CID系统获得一致的通路激活的能力，以直接控制MAPK信号，丝状足形成和细胞收缩。因此，分离式小型GTPase系统为开发用于直接控制用户定义输入的蜂窝信号的临时门控系统提供了一个可定制的平台。

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Split-Small GTPase Reassembly as a Method to Control Cellular Signaling with User-Defined Inputs

Small GTPases are critical signaling enzymes that control diverse cellular functions, such as cell migration and proliferation. However, dissecting the roles of these enzymes in cellular signaling is hindered by the lack of a plug-and-play methodology for the direct, temporal control of small GTPase activity by using user-defined inputs. Herein, we present a method that pairs split-small GTPases with user-defined chemical inducer of dimerization (CID) systems in a plug-and-play manner to directly control small GTPase signaling in living cells. The modularity of split-small GTPase systems allows for the selection of CIDs with minimal off-target effects on the pathway being studied. Our results highlight the ability to obtain consistent pathway activation with varying CID systems for direct control of MAPK signaling, filopodia formation, and cell retraction. Thus, split-small GTPase systems provide a customizable platform for the development of temporally gated systems for directly controlling cellular signaling with user-defined inputs.

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来源期刊

ACS Chemical Biology 生物-生化与分子生物学

CiteScore

7.50

自引率

5.00%

发文量

353

审稿时长

3.3 months

期刊介绍： ACS Chemical Biology provides an international forum for the rapid communication of research that broadly embraces the interface between chemistry and biology. The journal also serves as a forum to facilitate the communication between biologists and chemists that will translate into new research opportunities and discoveries. Results will be published in which molecular reasoning has been used to probe questions through in vitro investigations, cell biological methods, or organismic studies. We welcome mechanistic studies on proteins, nucleic acids, sugars, lipids, and nonbiological polymers. The journal serves a large scientific community, exploring cellular function from both chemical and biological perspectives. It is understood that submitted work is based upon original results and has not been published previously.