Pain
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Comparative Study Controlled Clinical Trial
Diminished neurokinin-1 receptor availability in patients with two forms of chronic visceral pain.
Central sensitization and dysregulation of peripheral substance P and neurokinin-1 receptor (NK-1R) signaling are associated with chronic abdominal pain in inflammatory bowel disease (IBD) and irritable bowel syndrome (IBS). Although positron emission tomography (PET) has demonstrated that patients with injury-related chronic pain have diminished NK-1R availability in the brain, it is unknown whether these deficits are present in IBD and IBS patients, who have etiologically distinct forms of non-injury-related chronic pain. This study's aim was to determine if patients with IBD or IBS exhibit deficits in brain expression of NK-1Rs relative to healthy controls (HCs), the extent to which expression patterns differ across patient populations, and if these patterns differentially relate to clinical parameters. ⋯ BP in a subset of these regions was robustly related to discrete clinical parameters in each patient population. Widespread deficits in NK-1R BP occur in IBD and, to a lesser extent, IBS; however, discrete clinical parameters relate to NK-1R BP in each patient population. This suggests that potential pharmacological interventions that target NK-1R signaling may be most effective for treating distinct symptoms in IBD and IBS.
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Treatment of severe pain by morphine, the gold-standard opioid and a potent drug in our arsenal of analgesic medications, is limited by the eventual development of hyperalgesia and analgesic tolerance. We recently reported that systemic administration of a peroxynitrite (PN) decomposition catalyst (PNDC) or superoxide dismutase mimetic attenuates morphine hyperalgesia and antinociceptive tolerance and reduces PN-mediated mitochondrial nitroxidative stress in the spinal cord. These results suggest the potential involvement of spinal PN signaling in this setting; which was examined in the present study. ⋯ Additionally, intrathecal MnTnHex-2-PyP(5+) attenuated neuroimmune activation by preventing the activation of nuclear factor kappa B, extracellular-signal-regulated kinase and p38 mitogen activated protein kinases, and the enhanced levels of proinflammatory cytokines, interleukin (IL)-1β and IL-6, while increasing anti-inflammatory cytokines, IL-4 and IL-10. The role of PN was further confirmed using intrathecal or oral delivery of the superoxide-sparing PNDC, SRI-110. These results suggest that mitochondrial-derived PN triggers the activation of several biochemical pathways engaged in the development of neuroinflammation in the spinal cord that are critical to morphine hyperalgesia and tolerance, further supporting the potential of targeting PN as an adjunct to opiates to maintain pain relief.
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To characterize the contribution of interleukin-6 (IL-6) to spinal cord injury pain (SCIP), we employed a clinically relevant rat contusion model of SCIP. Using Western blots, we measured IL-6 levels in lumbar segments (L1-L5), at the lesion site (T10), and in the corresponding lumbar and thoracic dorsal root ganglia (DRG) in 2 groups of similarly injured rats: (a) SCI rats that developed hind-limb mechanical allodynia (SCIP), and (b) SCI rats that did not develop SCIP. Only in SCIP rats did we find significantly increased IL-6 levels. ⋯ We also showed that IL-6-R Ab partially reversed SCI-induced decreases in the protein levels of the glutamate transporter GLT-1 12hours and 8days after Ab injection, which may explain the lasting analgesic effect of the Ab in SCIP rats. A link between reactive astrocytes IL-6-GLT-1 has not been previously shown. Given that the humanized IL-6-R Ab tocilizumab is Food and Drug Administration-approved for rheumatoid arthritis, we are proposing tocilizumab as a novel and potentially effective treatment for SCIP.