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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Inoculation of the right hind paw with Mycobacterium butyricum rapidly led to swelling and inflammation. The afflicted limb showed an enhanced sensitivity to noxious pressure (hyperalgesia) and a reduced sensitivity to noxious heat 24 h following treatment. Both naloxone and MR 2266 (which has greater activity at kappa-opioid receptors) further increased the sensitivity to pressure (that is, potentiated the hyperalgesia) but did not affect the response to heat. They did not affect the response of the uninflamed paw. At 1 week, only MR 2266 was effective. At both 24 h and 1 week, the inflamed paw showed pronounced supersensitivity to the antinociceptive action of morphine against noxious pressure. At both 24 h and (to a greater extent) 1 week, a rise in levels of immunoreactive (ir)-dynorphin (DYN) was seen in the ipsilateral dorsal horn of the lumbar spinal cord. There was no alteration in the contralateral dorsal horn or in either ventral horn. Furthermore, levels of ir-
met-enkephalin
(ME) and ir-leu-enkephalin (LE) were unaffected. There was no difference in the density of mu-, delta- or kappa-binding sites in any part of the lumbar cord, at either 24 h or 1 week, between ipsilateral and contralateral tissue. By 3 and 5 weeks postinoculation, the symptoms had spread to the contralateral hind limb and ir-DYN was elevated in the contralateral dorsal horn and the ipsilateral ventral horn. At 5 weeks, levels of ir-ME and ir-LE also were increased in the ipsilateral and contralateral dorsal horns, but not in the contralateral ventral horn. Furthermore, levels of ir-DYN were increased in the cervico-thoracic spinal cord, and rats displayed adrenal hypertrophy and a rise in plasma levels of ir-
beta-endorphin
(beta-EP). These data indicate: (1) Peripheral inflammation localized to a single limb selectively modifies levels of ir-DYN in ipsilateral dorsal horn. The effect is specific to DYN as compared to ME and LE. The density of mu-, delta-, or kappa-receptors in the lumbar spinal cord is unmodified. (2) The altered response to opioid agonists and antagonists shown by rats with an inflamed limb may be selective to the injured tissue. (3) Alterations in opioid systems associated with unilateral hind limb inflammation may not be exclusively chronic in nature: they appear very rapidly (within 24 h) of the induction of pain. With time, the contralateral limb becomes affected and, eventually, the effects resemble those seen with generalized
polyarthritis
.
...
PMID:Inflammation of the hind limb as a model of unilateral, localized pain: influence on multiple opioid systems in the spinal cord of the rat. 290 25
Intradermal inoculation of rats at the tail base with Mycobacterium butyricum led to the gradual development of an arthritic swelling of the limbs which peaked at 3 weeks and subsided thereafter. Arthritic rats displayed a loss of body weight, hypophagia, and hypodipsia in addition to a disruption of the diurnal rhythms of ingestive behavior and of core temperature. The activity of adenohypophyseal
beta-endorphin
-(beta-EP) secreting corticotrophs, in contrast to prolactin-(PRL) secreting lactotrophs, was increased in arthritic rats. Indeed, hypertrophy of the adrenal glands was seen. Arthritic rats also showed an elevation in spinal cord levels of immunoreactive dynorphin (DYN), an endogenous ligand of the kappa-opioid receptor. The paws and tail of arthritic rats showed lower thresholds in response to noxious pressure (hyperalgesia), higher thresholds in response to noxious heat (hypoalgesia), and no change in their response to noxious electrical stimulation. Neither naloxone nor ICI-154, 129 (a preferential delta-receptor antagonist) modified the responses of the paw or tail to pressure. However, MR 2266 (an antagonist with higher activity at kappa-receptors) decreased thresholds to pressure in arthritic, but not control, rats; that is, it potentiated the hyperalgesia. This action was stereospecific. None of the antagonists modified the response to heat. MR 2266 did not affect the response to pressure in rats with acute inflammation produced by yeast. Thus, the potentiation of pressure hyperalgesia by MR 2266 in chronic arthritic rats is highly selective. Arthritic rats showed a reduced response to the analgesic effect of a kappa-agonist (U-50,488H), whereas the response to a mu-agonist (morphine) was enhanced. These effects were specific to nociception in that their influence upon endocrine secretion (PRL and beta-EP) was otherwise changed. The secretion of beta-EP and PRL was stimulated by both morphine and U-50,488H, and the influence of U-50,488H upon the release of beta-EP (from the adenohypophysis) was enhanced in arthritic rats. It is suggested that
polyarthritis
is a complex condition entailing many changes, both behavioral and endocrinological. Further, arthritic rats cannot simply be described as "hyperalgesic": of critical importance is the nature of the nociceptive stimulus applied. The parallel alterations in spinal cord pools of DYN and kappa-receptors (see also Millan et al., 1986) and the changes in the influence on nociception of kappa-agonists and kappa-antagonists suggest an increased activity of spinal DYN. Thus, spinal kappa-receptors may play a role in the modulation of nociception under chronic pain.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:A model of chronic pain in the rat: functional correlates of alterations in the activity of opioid systems. 302 78
Previous studies showed that spinal opioidergic neurotransmission is markedly altered in the polyarthritic rat, a model of chronic inflammatory pain. Present investigations aimed at assessing possible changes in opioid-mediated control of the spinal outflow of
met-enkephalin
(ME) and dynorphin (DYN) in these animals. Intrathecal (i.t.) perfusion under halothane anesthesia showed that
polyarthritis
was associated with both a 40% decrease in the spinal outflow of ME-like material (MELM) and a 90% increase in that of DYNLM. Local treatment with the mu-opioid agonist DAGO (10 microM i.t.) inhibited equally (-30%) the MELM outflow in polyarthritic and control rats, whereas the delta agonist DTLET (10 microM i.t.) also reduced the peptide outflow in controls (-27%) but enhanced it in polyarthritic animals (+56%). On the other hand, both DAGO (10 microM i.t.) and DTLET (10 microM i.t.) decreased (-40 and -49%) DYNLM outflow in polyarthritic rats, but were inactive in controls. Finally, neither MELM outflow nor that of DYNLM were affected by the kappa-agonist U50488H (10 microM i.t.) in both groups of rats. In all cases, the changes due to active agonists could be prevented by specific antagonists which were inactive on their own except the kappa antagonist nor-binaltorphimine (10 microM i.t.) that decreased (-38%) DYNLM outflow in polyarthritic rats. These data indicate that functional changes in spinal opioid receptors may promote enkephalinergic neurotransmission and reduce dynorphinergic neurotransmission in polyarthritic rats, thereby contributing to the analgesic efficacy of opioids in inflammatory pain.
...
PMID:Altered opioid-mediated control of the spinal release of dynorphin and met-enkephalin in polyarthritic rats. 1089 63
