A chemogenetic platform for controlling plasma membrane signaling and synthetic signal oscillation
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説明
<jats:title>ABSTRACT</jats:title><jats:p>Chemogenetic methods that enable the rapid translocation of specific signaling proteins in living cells using small molecules are powerful tools for manipulating and interrogating intracellular signaling networks. However, existing techniques rely on chemically induced dimerization of two protein components and have certain limitations, such as a lack of reversibility, bioorthogonality, and usability. Here, by expanding our self-localizing ligand-induced protein translocation (SLIPT) approach, we have developed a versatile chemogenetic system for plasma membrane (PM)-targeted protein translocation. In this system, a novel engineered<jats:italic>Escherichia coli</jats:italic>dihydrofolate reductase in which a hexalysine (K6) sequence is inserted in a loop region (<jats:sup>iK6</jats:sup>DHFR) is used as a universal protein tag for PM-targeted SLIPT. Proteins of interest that are fused to the<jats:sup>iK6</jats:sup>DHFR tag can be specifically recruited from the cytoplasm to the PM within minutes by addition of a myristoyl-<jats:sc>d</jats:sc>-Cys-tethered trimethoprim ligand (m<jats:sup>D</jats:sup>cTMP). We demonstrated the broad applicability and robustness of this engineered protein–synthetic ligand pair as a tool for the conditional activation of various types of signaling molecules, including protein and lipid kinases, small GTPases, heterotrimeric G proteins, and second messengers. In combination with a competitor ligand and a culture-medium flow chamber, we further demonstrated the application of the system for chemically manipulating protein localization in a reversible and repeatable manner to generate synthetic signal oscillations in living cells. The present bioorthogonal<jats:sup>iK6</jats:sup>DHFR/m<jats:sup>D</jats:sup>cTMP-based SLIPT system affords rapid, reversible, and repeatable control of the PM recruitment of target proteins, offering a versatile and easy-to-use chemogenetic platform for chemical and synthetic biology applications.</jats:p>
収録刊行物
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- Cell Chemical Biology
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Cell Chemical Biology 29 (9), 1446-1464.e10, 2021-03-16
Cold Spring Harbor Laboratory