Capsaicin Infused into the Periaqueductal Gray Affects Rat Tail Flick Responses to Noxious Heat and Alters Neuronal Firing in the Rostral Ventromedial Medulla

doi:10.1152/jn.00433.2003

Capsaicin Infused into the Periaqueductal Gray Affects Rat Tail Flick Responses to Noxious Heat and Alters Neuronal Firing in the Rostral Ventromedial Medulla

Steve McGaraughty¹^*, Katharine L Chu¹, Robert S Bitner¹, Brenda Martino¹, Rachid El Kouhen¹, Ping Han¹, Arthur L Nikkel¹, Edward C Burgard¹, Connie R Faltynek¹, and Michael F Jarvis¹

¹ Neuroscience Research, Abbott Laboratories, Abbott Park, IL, USA

^* To whom correspondence should be addressed. E-mail: Steve.P.McGaraughty{at}abbott.com.

It is well established that the vanilloid receptor, VR1, isan important peripheral mediator of nociception. VR1 receptorsare also located in several brain regions, yet it is uncertainwhether these supraspinal VR1 receptors have any influence onthe nociceptive system. To investigate a possible nociceptiverole for supraspinal VR1 receptors, capsaicin (10 nmol in 0.4µl) was microinjected into either the dorsal (dPAG) orventral (vPAG) regions of the periaqueductal gray. Capsaicin-relatedeffects on tail flick latency (immersion in 52°C water)and on neuronal activity (ON-, OFF- and neutral cells) in therostral ventromedial medulla (RVM) were measured in lightlyanesthetized rats. Administration of capsaicin into the dPAGbut not the vPAG caused an initial hyperalgesic response followedlater by analgesia (125±20.96 min post-injection). Thetail flick-related burst in ON-cell activity was triggered earlierin the hyperalgesic phase and was delayed or absent during theanalgesic phase. Spontaneous activity of ON-cells increasedat the onset of the hyperalgesic phase and decreased prior toand during the analgesic phase. The tail flick-related pausein OFF-cell activity as well as spontaneous firing for thesecells was unchanged in the hyperalgesic phase. During the analgesicphase, OFF-cells no longer paused during noxious stimulationand had increased levels of spontaneous activity. Neutral cellfiring was unaffected in either phase. Pretreatment with theVR1 receptor antagonist, capsazepine (10 nmol in 0.4 µl),into the dPAG blocked the capsaicin-induced hyperalgesia aswell as the corresponding changes in ON- and OFF-cell activity.VR1 receptor immunostaining was observed in the dPAG of untreatedrats. Microinjection of capsaicin likely sensitized and thendesensitized dPAG neurons affecting nocifensive reflexes andRVM neuronal activity. These results suggest that supraspinalVR1 receptors in the dPAG contribute to descending modulationof nociception

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