Capsaicin Activation of the Pain Receptor, VR1: Multiple Open States from Both Partial and Full Binding

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Capsaicin Activation of the Pain Receptor, VR1: Multiple Open States from Both Partial and Full Binding

Kwokyin Hui, Beiying Liu and Feng Qin

Department of Physiology and Biophysical Sciences, State University of New York at Buffalo, Buffalo, New York 14214

Correspondence: Address reprint requests to Dr. Feng Qin, 124 Sherman Hall, SUNY at Buffalo, Buffalo, NY 14214. Tel.: 716-829-2764; Fax: 716-829-2569; E-mail: qin@acsu.buffalo.edu.

Capsaicin, the pungent ingredient of hot peppers, has long beenused to identify nociceptors. Its molecular target, the vanilloidreceptor VR1, was recently cloned and confirmed functionallyas a polymodal detector of multiple pain stimuli: heat, acid,and vanilloids. Previous electrophysiology studies have focusedon whole-cell characteristics of the receptor. Here, we providethe first in-depth single-channel kinetic study of VR1 to understandits activation mechanism. At low to medium concentrations, channelactivity appeared as bursts. Not only did the durations of theinterburst gaps vary with capsaicin, the bursts also appearedligand-dependent, with high capsaicin prolonging bursts andstabilizing openings. Gating involved at least five closed andthree open states, with strong correlations between short closuresand long openings, and long closures and short openings. Increasingcapsaicin reduced the long closures with little effect on shortones. The open time constants changed little with capsaicinconcentration, though their relative proportions varied. Theseresults suggest that 1), the channel contains multiple capsaicinbinding sites; 2), both partial and full binding are capableof opening the channel; 3), when activated, multiple open statesare accessible irrespective of the level of binding; and 4),capsaicin association occurs preferentially to the closed channel.

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				S. Ryu, B. Liu, and F. Qin Low pH Potentiates Both Capsaicin Binding and Channel Gating of VR1 Receptors J. Gen. Physiol., June 30, 2003; 122(1): 45 - 61. [Abstract] [Full Text] [PDF]