The pathological mechanisms of fibromyalgia (FM) are largely unknown. Recently, a rat reserpine-induced pain model showing exaggerated pain-related behaviors to mechanical and thermal stimuli has been used in FM research. However, the model has not been fully characterized. Here, we investigated nociceptive hypersensitivity to chemical stimuli and its spinal mechanisms to further characterize the model. The rat model was induced by administering reserpine to the nervous system. Nociceptive behaviors to chemical stimuli were quantified using the formalin pain test, and neuronal activation of the stimuli was examined using spinal c-Fos immunohistochemistry and electrophysiological recordings of superficial dorsal horn (SDH) neurons. The duration of pain-related behaviors was prolonged in both phases I (0-5 min) and II (10-60 min) and the interphase; and the number of c-Fos-immunoreactive nuclei increased in laminae I-II, III-IV, and V-VI at the spinal segments L3-L5 on the side ipsilateral to the formalin injection, and these factors were significantly and positively correlated. The action potentials of SDH neurons induced by formalin injection were markedly increased in rats treated with reserpine. These results demonstrate that pain-related behaviors are facilitated by noxious chemical stimuli in a rat reserpine-induced FM model, and that the behavioral hypersensitivity is associated with hyperactivation of SDH neurons.
Keywords: C-Fos; Chronic widespread pain; Fibromyalgia; Formalin test; Reserpine; Spinal dorsal horn.
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