Phosphoinositide 3-Kinase Binds to TRPV1 and Mediates NGF-stimulated TRPV1 Trafficking to the Plasma Membrane

doi:10.1085/jgp.200609576

Published online Oct 30 2006. doi:10.1085/jgp.200609576
The Rockefeller University Press, 0022-1295 $8.00
JGP, Volume 128, Number 5, 509-522

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ARTICLE

Phosphoinositide 3-Kinase Binds to TRPV1 and Mediates NGF-stimulated TRPV1 Trafficking to the Plasma Membrane

Alexander T. Stein¹, Carmen A. Ufret-Vincenty², Li Hua², Luis F. Santana², and Sharona E. Gordon²

¹ Graduate Program in Neurobiology and Behavior and ² Department of Physiology and Biophysics, University of Washington, Seattle, WA 98195

Correspondence to Sharona E. Gordon: seg{at}u.washington.edu

Sensitization of the pain-transducing ion channel TRPV1 underliesthermal hyperalgesia by proalgesic agents such as nerve growthfactor (NGF). The currently accepted model is that the NGF-mediatedincrease in TRPV1 function during hyperalgesia utilizes activationof phospholipase C (PLC) to cleave PIP2, proposed to tonicallyinhibit TRPV1. In this study, we tested the PLC model and foundtwo lines of evidence that directly challenge its validity:(1) polylysine, a cationic phosphoinositide sequestering agent,inhibited TRPV1 instead of potentiating it, and (2) direct applicationof PIP2 to inside-out excised patches dramatically potentiatedTRPV1. Furthermore, we show four types of experiments indicatingthat PI3K is physically and functionally coupled to TRPV1: (1)the p85ß subunit of PI3K interacted with the N-terminalregion of TRPV1 in yeast 2-hybrid experiments, (2) PI3K-p85ßcoimmunoprecipitated with TRPV1 from both HEK293 cells and dorsalroot ganglia (DRG) neurons, (3) TRPV1 interacted with recombinantPI3K-p85 in vitro, and (4) wortmannin, a specific inhibitorof PI3K, completely abolished NGF-mediated sensitization inacutely dissociated DRG neurons. Finally, simultaneous electrophysiologicaland total internal reflection fluorescence (TIRF) microscopyrecordings demonstrate that NGF increased the number of channelsin the plasma membrane. We propose a new model for NGF-mediatedhyperalgesia in which physical coupling of TRPV1 and PI3K ina signal transduction complex facilitates trafficking of TRPV1to the plasma membrane.

Abbreviations used in this paper: CPZ, capsazepine; DRG, dorsalroot ganglia; GPCR, G protein–coupled receptor; HBSS,Hank's buffered saline solution; NGF, nerve growth factor; RR,ruthenium red; RTK, receptor tyrosine kinase; TIRF, total internalreflection fluorescence.

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