Showing papers by "Peter W. Reeh published in 2004"

Effects of TRPV1 receptor antagonists on stimulated iCGRP release from isolated skin of rats and TRPV1 mutant mice.

Abstract: Capsaicin antagonists including ruthenium red, capsazepine and iodo-resiniferatoxin (I-RTX) have recently been shown to inhibit the activation by noxious heat of the capsaicin receptor (TRPV1) expressed in non-neuronal host cells, and natively, in cultured dorsal root ganglion cells. Noxious heat has been shown to release immunoreactive calcitonin gene-related peptide (iCGRP) from the isolated rat skin. In this model, ruthenium red, I-RTX as well as capsazepine 10 microM caused no alteration in iCGRP release at 32 degrees C by themselves whereas capsazepine 100 microM doubled it reversibly. In wild-type mice 100 microM capsazepine also stimulated iCGRP release while it was without effect in TRPV1 knockout littermates. In the rat skin, both ruthenium red and capsazepine (10/100 microM) reduced and abolished, respectively, capsaicin-induced iCGRP release while I-RTX (1/10 microM) was ineffective. Only ruthenium red 100 microM showed an unspecific effect inhibiting iCGRP release induced by KCl. Ruthenium red and capsazepine (10/100 microM) caused no significant alteration of iCGRP release induced by heat stimulation at 47 degrees C. Employing 45 degrees C stimulation intensity, capsazepine and I-RTX (in the higher concentrations) showed a significant facilitatory effect on the heat response suggesting a partial agonistic action of the compounds. It is concluded that noxious heat-induced iCGRP release in the isolated rat skin occurs through a mechanism that is not inhibited by TRPV1 antagonism reflecting a different pharmacological profile of noxious heat transduction in terminals of sensory neurons compared to that in cultured cell bodies and TRPV1-transfected host cells.

Why cooling is beneficial: non-linear temperature-dependency of stimulated iCGRP release from isolated rat skin.

Abstract: The capsaicin receptor in nociceptive neurons is a target for the sensitizing actions of algogenic inflammatory mediators. Capsaicin and potential endogenous ligands are thought not to gate this heat-activated ion channel but to sensitize it so profoundly that even room temperature can open it. We investigated the temperature dependency of capsaicin-induced CGRP release from nociceptive nerve fibers in isolated rat skin over a range of ambient temperatures using different agonist concentrations (10(-7)-10(-5)M) and KCl (60 mM) for control. Ambient temperature (4-40 degrees C) showed no significant influence on the basal iCGRP outflow. The supramaximal capsaicin concentration of 10(-6)M as a stimulus evoked a response that was not significantly diminished by temperatures decreasing from 40 to 24 degrees C but lost 65% of its amplitude between 24 and 14 degrees C (Q(10) approximately 6.7). Such a collapse of the response occurred between 40 and 32 degrees C at lower capsaicin concentration (10(-7)M). The concentration-response curves showed a rightward shift upon cooling from 40 to 24 degrees C and a major loss of slope and maximum effect at 14 degrees C which formally describes a noncompetitive antagonism. KCl-induced iCGRP release showed a much more linear temperature dependency (Q(10) approximately 2.4 between 24 and 14 degrees C). Significant capsaicin responses even at 8 degrees C suggest a contribution of noxious-cold sensitive neurons known to coexpress CGRP and the capsaicin receptor. The heat-activated ion channels (TRPV1-4) are thought to play a significant role in inflammatory pain which is effectively relieved by cooling. The present results contribute to understanding this phenomenon.