OptoPI3K, genetic code expansion, and click chemistry reveal mechanisms underlying reciprocal regulation between TRPV1 and PI3K

Author:

Koh Duk-Su1,Stratiievska Anastasiia1,Jana Subhashis2ORCID,Otto Shauna C.1,Swanson Teresa M.1,Nhim Anthony1,Carlson Sara1,Raza Marium1,Naves Lígia Araujo1,Senning Eric N.3,Mehl Ryan2,Gordon Sharona E.1ORCID

Affiliation:

1. University of Washington, Department of Physiology & Biophysics

2. Department of Biochemistry and Biophysics, Oregon State University

3. Department of Neuroscience, University of Texas at Austin

Abstract

Receptor tyrosine kinase signaling is characterized by complex webs of interconnected pathways that regulate diverse cellular functions. The complexity of signaling is a barrier to understanding the pathways that control any particular function. In this work, we use a novel combination of approaches and a new click chemistry probe to determine the role of one pathway in regulating cell surface expression of an ion channel and a receptor tyrosine kinase. We applied an optogenetic approach to uncouple activation of the PI3K pathway from other pathways downstream of RTK activation. In this context, we used genetic code expansion to introduce a click chemistry noncanonical amino acid into the extracellular side of membrane proteins. Applying a cell-impermeant click chemistry fluorophore allowed us to visualize delivery of membrane proteins to the PM in real time. Using these approaches, we demonstrate that activation of PI3K, without activating other pathways downstream of RTK signaling, is sufficient to traffic the TRPV1 ion channels and insulin receptors to the plasma membrane.

Publisher

eLife Sciences Publications, Ltd

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