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Transient receptor potential vanilloid type-1 (TRPV-1) channels contribute to cutaneous thermal hyperaemia in humans.

Author(s): Wong BJ, Fieger SM

Affiliation(s): Department of Kinesiology, Kansas State University, Manhattan, KS 66506, USA. bwong@k-state.edu

Publication date & source: 2010-11-01, J Physiol., 588(Pt 21):4317-26.

Publication type: Randomized Controlled Trial; Research Support, Non-U.S. Gov't

The initial, rapid increase in skin blood flow in response to direct application of heat is thought to be mediated by an axon reflex, which is dependent on intact cutaneous sensory nerves. We tested the hypothesis that inhibition of transient receptor potential vanilloid type 1 (TRPV-1) channels, which are putative channels located on sensory nerves, would attenuate the skin blood flow response to local heating in humans. Ten subjects were equipped with four microdialysis fibres which were randomly assigned one of four treatments: (1) vehicle control (90% propylene glycol + 10% lactated Ringer solution); (2) 20 mm capsazepine to inhibit TRPV-1 channels; (3) 10 mm l-NAME to inhibit NO synthase; and (4) combined 20 mm capsazepine + 10 mm l-NAME. Following baseline measurements, the temperature of skin heaters was increased from 33 degrees C to 42 degrees C at a rate of 1.0 degrees C every 10 s and local temperature was held at 42 degrees C for 20-30 min until a stable plateau in skin blood flow was achieved. An index of skin blood flow was measured directly over each microdialysis site via laser-Doppler flowmetry (LDF). Beat-by-beat blood pressure was measured via photoplethysmography and verified via automated brachial auscultation. At the end of the local heating protocol, temperature of the heaters was increased to 43 degrees C and 28 mm nitroprusside was infused to achieve maximal vasodilatation. Cutaneous vascular conductance (CVC) was calculated as LDF/mean arterial pressure and normalized to maximal values (%CVCmax). Initial peak in capsazepine (44 +/- 4%CVCmax), l-NAME (56 +/- 4%CVCmax) and capsazepine + l-NAME (32 +/- 6%CVCmax) sites was significantly attenuated compared to control (87 +/- 5%CVCmax; P < 0.001 for all conditions). The plateau phase of thermal hyperaemia was significantly attenuated in capsazepine (73 +/- 6%CVCmax), l-NAME (47 +/- 5%CVCmax) and capsazepine + l-NAME (31 +/- 7%CVCmax) sites compared to control (92 +/- 5%CVCmax; P < 0.001 for all conditions). These data suggest TRPV-1 channels contribute substantially to the initial peak and modestly to the plateau phases of thermal hyperaemia. These data further suggest a portion of the NO component of thermal hyperaemia may be due to activation of TRPV-1 channels.

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