Nociceptor Hyper-Responsiveness during Vincristine-Induced Painful Peripheral Neuropathy in the Rat

Abstract

Neuropathic pain accompanies peripheral nerve injury after a wide variety of insults including metabolic disorders, traumatic nerve injury, and neurotoxic drugs. Chemotherapy-induced neuropathic pain, caused by drugs such as vincristine and taxol, occurs in cancer patients who receive these drugs as antineoplastic agents. Although a variety of remediations have been attempted, the absence of knowledge concerning mechanisms of chemotherapy-induced neuropathic pain has hindered the development of treatment strategies. Vincristine, a widely used chemotherapeutic agent, produces painful peripheral neuropathy in humans and mechanical hyperalgesia in rats. To test the hypothesis that alterations in C-fiber nociceptor function occur during vincristine-induced painful peripheral neuropathy, we performedin vivo extracellular recordings of single neurons from the saphenous nerve of vincristine-treated rats. Forty-one percent of C-fiber nociceptors were significantly hyper-responsive to suprathreshold mechanical stimulation. As a population, these mechanically hyper-responsive nociceptors also had significantly greater responses to suprathreshold heat stimulation; however, heat hyper-responsiveness was found only in a subset of these nociceptors and was never detected in the absence of mechanical hyper-responsiveness. In addition, mean conduction velocities of A-fibers and C-fibers in vincristine-treated rats were significantly slowed. Mean heat and mechanical activation thresholds of C-fiber nociceptors, their distribution among subclasses, and the percentage of spontaneously active neurons in vincristine-treated rats were not statistically different from controls. Vincristine does not, therefore, cause generalized impairment of C-fiber nociceptor function but rather specifically interferes with mechanisms underlying responsiveness to suprathreshold stimuli. Furthermore, vincristine-induced nociceptor hyper-responsiveness may involve alterations specifically in mechanotransduction in some nociceptors and alterations in general cellular adaptation mechanisms in others.