Articles: hyperalgesia-pathology.
-
Animal models for mechanical pressure or heat nociception usually only measure the threshold response latency. In this study, the effect of typical sensitising treatments on the lasting nocifensive behaviour elicited after a supra-threshold heating stimulus - the hyperpathic component of hypernociception - was assessed. Male Wistar rats received either intra-plantar (i.pl.) injection of 350ng PGE(2) (50microL) or topical application (t.a.) of 100% dimethylsulfoxide (DMSO), and 10mM capsaicin. ⋯ Capsaicin neonatal treatment (CNT) (50mg/kg) reduced the sensitisation induced by DMSO and capsaicin (P<0.01), but not that induced by PGE(2). These data suggest that the heat-induced lasting nociception is probably conveyed by Aeth nociceptors, and PGE(2) seems to be more selective to induce this phenomenon than the thermal threshold lowering. In addition, this hyperpathic effect induced by DMSO and capsaicin seems to be indirectly mediated by PGE(2) and C-fibres.
-
Peripheral inflammation induces persistent central sensitization characterized by mechanical allodynia and heat hyperalgesia that are mediated by distinct mechanisms. Compared to well-demonstrated mechanisms of heat hyperalgesia, mechanisms underlying the development of mechanical allodynia and contralateral pain are incompletely known. In this study, we investigated the distinct role of spinal JNK in heat hyperalgesia, mechanical allodynia, and contralateral pain in an inflammatory pain model. ⋯ Finally, CFA-induced bilateral mechanical allodynia was attenuated in mice lacking JNK1 but not JNK2. Taken together, our data suggest that spinal JNK, in particular JNK1 plays an important role in the maintenance of persistent inflammatory pain. Our findings also reveal a unique role of JNK1 and astrocyte network in regulating tactile allodynia and contralateral pain.
-
Pro-inflammatory cytokine production after nociceptive stimuli is pivotal for hyperalgesia. As macrophage migration inhibitory factor (MIF), a pleiotropic cytokine produced mainly by nonneuronal tissue, has been involved in the regulation of neuronal functions, herein we examined the role for MIF in formalin-induced inflammatory pain model. MIF critically contributed to nociceptive behaviors following formalin injection. ⋯ Mechanistic studies revealed that MIF upregulated the expression of the spinal NMDA receptor subunit NR2B via the MAPK signaling pathway. Moreover, microglial cells were found to be the major source of spinal MIF after formalin administration by fluorescence colocalization. These data highlight spinal MIF plays a critical role in the pathogenesis of formalin-induced inflammatory pain and suggest MIF may be a potential target for therapy of such pathological condition.
-
Previous studies have shown that the TRPV1 ion channel plays a critical role in the development of heat hyperalgesia after inflammation, as inflamed TRPV1-/- mice develop mechanical allodynia but fail to develop thermal hyperalgesia. In order to further investigate the role of TRPV1, we have used an ex vivo skin/nerve/DRG preparation to examine the effects of CFA-induced-inflammation on the response properties of TRPV1-positive and TRPV1-negative cutaneous nociceptors. ⋯ Results obtained here suggest that increased heat sensitivity in TRPV1-negative CPM fibers alone following inflammation is insufficient for the induction of heat hyperalgesia. On the other hand, TRPV1-positive CH fibers appear to play an essential role in this process that may include both afferent and efferent functions.
-
Cold allodynia is a common sign of neuropathic pain patients but its underlying mechanisms are still largely unknown, partly because the populations of neurons responding to cold stimuli and their transduction mechanisms have not been fully determined. We report a patient with a small-fiber neuropathy of unknown origin, whose main complaint is cold allodynia. ⋯ These findings provide the first direct evidence in human of abnormal peripheral nociceptor behavior potentially responsible for cold allodynia. The responsiveness of C-nociceptors to menthol suggests an abnormal expression or function of TRPM8 channels in this patient with a small-fiber polyneuropathy.