Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0344307 (
analgesia
)
28,200
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Enkephalins are endogenous opioid peptides that are derived from a pre-proenkephalin
precursor protein
. They are thought to be vital in regulating many physiological functions, including pain perception and
analgesia
, responses to stress, aggression and dominance. Here we have used a genetic approach to study the role of the mammalian opioid system. We disrupted the pre-proenkephalin gene using homologous recombination in embryonic stem cells to generate enkephalin-deficient mice. Mutant enk-/- animals are healthy, fertile, and care for their offspring, but display significant behavioural abnormalities. Mice with the enk-/- genotype are more anxious and males display increased offensive aggressiveness. Mutant animals show marked differences from controls in supraspinal, but not in spinal, responses to painful stimuli. Unexpectedly, enk-/- mice exhibit normal stress-induced
analgesia
. Our results show that enkephalins modulate responses to painful stimuli. Thus, genetic factors may contribute significantly to the experience of pain.
...
PMID:Pain responses, anxiety and aggression in mice deficient in pre-proenkephalin. 884 26
Neuropeptide FF (Phe-Leu-Phe-Gln-Pro-Gln-Arg-Phe-NH2) and the octadecapeptide neuropeptide AF (Ala-Gly-Glu-Gly-Leu-Ser-Ser-Pro-Phe-Trp-Ser-Leu-Ala-Ala-Pro-Gln-Arg-Phe -NH2) were isolated from bovine brain, and were initially characterized as anti-opioid peptides. They can oppose the acute effects of opioids and an increase in their brain concentrations may be responsible for the development of tolerance and dependence to opioids. Numerous experiments suggest a possible neuromodulatory role for neuropeptide FF. A
precursor protein
has been identified, in particular in human brain. Neuropeptide FF immunoreactive neurons are present only in the medial hypothalamus, and the nucleus of the solitary tract, and in the spinal cord in the superficial layers of the dorsal horn and areas around the central canal. Depolarization induces a Ca2+-dependent release of neuropeptide FF immunoreactivity from the spinal cord. Neuropeptide FF acts through stimulation of its own receptors and high densities of specific binding sites are found in regions related either to sensory input and visceral functions or to the processing of nociceptive messages. In both isolated dorsal root ganglion neurons and CA1 pyramidal neurons of the hippocampus, neuropeptide FF has little effect of its own but reverses the effects of mu-opioid receptor agonists. In agreement with the hypothesized anti-opioid role of neuropeptide FF, supraspinal injection lowers the nociceptive threshold and reverses morphine-induced
analgesia
in rats. Furthermore, immunoneutralization of neuropeptide FF increases endogenous and exogenous opioid-induced
analgesia
. Similarly, microinfusion of neuropeptide FF or neuropeptide FF analogs into the nucleus raphe dorsalis, the parafascicular nucleus, or the ventral tegmental area has no effect on the nociceptive threshold but inhibits the
analgesia
induced by co-injected morphine. Furthermore, infusion of neuropeptide FF into the parafascicular nucleus or the nucleus raphe dorsalis reverses the analgesic effect of morphine infused into the nucleus raphe dorsalis or the parafascicular nucleus, respectively, demonstrating remote interactions between neuropeptide FF and opioid systems. By contrast, intrathecal administration of neuropeptide FF analogs induces a long lasting, opioid-dependent
analgesia
and potentiates the analgesic effect of morphine. Analgesic effects of neuropeptide FF after supraspinal injection could also be observed, for example during nighttime. In young mice, (1DMe)Y8Famide (D.Tyr-Leu-(NMe)Phe-Gln-Pro-Gln-Arg-Phe-NH2), a neuropeptide FF analog, increases delta-opioid receptor-mediated
analgesia
. These findings indicate that neuropeptide FF constitutes a neuromodulatory neuronal system interacting with opioid systems, and should be taken into account as a participant of the homeostatic process controlling the transmission of nociceptive information.
...
PMID:Neuropeptide FF, pain and analgesia. 959 88
Several lines of evidence suggest that neuropeptide FF (NPFF) is involved in nociception and in the modulation of opioid-mediated
analgesia
. Following the identification of the
precursor protein
for NPFF, two NPFF receptors and a second PQRF-NH(2) containing peptide, termed NPVF, were identified. To further explore the functional role of PQRF-NH(2) peptides, we have studied their distribution and also the regulation of NPFF and NPVF systems in the spinal cord of rats with peripheral inflammation. The distribution of NPFF gene expression is very similar to that of NPFF immunoreactive peptide but is distinct from NPVF gene expression. In the rat spinal cord, gene expression of NPFF but not that of NPVF was up-regulated by persistent pain induced by carrageenan inflammation. The distribution of NPFF receptor 2 gene expression is very similar to that of the NPFF peptide with a striking localization in the superficial layer of spinal cord. In rats with carrageenan inflammation of the hind paw, expression of both NPFF and NPFF receptor 2 genes was up-regulated in the spinal cord, while expression of NPVF and NPFF receptor 1 genes was not affected. The results of this study demonstrate a coordinated involvement of the spinal NPFF system in the persistent nociceptive pain states. Several studies have found a potentiation and prolongation of morphine
analgesia
by NPFF, therefore, it is highly possible that the endogenous spinal NPFF system contributes to the enhanced analgesic potency of morphine in animals with peripheral inflammation.
...
PMID:Activation of spinal neuropeptide FF and the neuropeptide FF receptor 2 during inflammatory hyperalgesia in rats. 1267 48
Nocistatin and nociceptin/orphanin FQ (N/OFQ) are two neuropeptides derived from the same
precursor protein
, prepronociceptin (ppOFQ), and exhibit different effects on spinal neurotransmission. Nocistatin does not bind to nociceptin/orphanin FQ peptide receptor (NOP), but intrathecal (i.t.) nocistatin has been reported to block the analgesic effect of i.t. N/OFQ. In this study, we investigated the effect of i.t. nocistatin on N/OFQ
analgesia
to radiant thermal stimuli in chronic constriction injury (CCI) rat. Firstly, to investigate the analgesic effect of N/OFQ, different doses of N/OFQ (3, 10, 30 microg) were intrathecally injected and foot withdrawal latency (FWL) to radiant heat was recorded. It is observed that 3 microg N/OFQ had no effect on FWL, 10 and 30 microg N/OFQ significantly increased FWL of CCI rat. Then, 10 microg N/OFQ, 10 microg nocistatin and a drug cocktail including 10 microg N/OFQ and 10 microg nocistatin were intrathecally injected. The results showed that FWL significantly decreased after using N/OFQ and nocistatin compared with using only N/OFQ, and 10 microg nocistatin had no effect on FWL versus control, suggesting that this dose of nocistatin per se had no effect on the pain threshold of CCI rat, but could block the analgesic effect of N/OFQ. These results indicated that i.t. N/OFQ dose-relatedly depressed thermal hyperalgesia produced by CCI and nocistatin could block N/OFQ
analgesia
at spinal level in CCI rat.
...
PMID:Effect of intrathecal nocistatin on nociceptin/orphanin FQ analgesia in chronic constriction injury rat. 1451 41
Nocistatin and Nociceptin/Orphanin FQ are two neuropeptides derived from the same
precursor protein
, pre-pro-Nociceptin. Nocistatin does not bind to Nociceptin/Orphanin FQ peptide (NOP) receptor but it antagonizes the allodynic and hyperalgesic effect of intrathecal (i.t.) Nociceptin. In this study, we examined the effect of Nocistatin on nociception and opioid
analgesia
by itself and the nociceptive effect of Nociceptin and antagonistic effect of nociceptin on opioid receptors in tail flick test when given the i.c.v. route. More precisely, supraspinal Nocistatin by itself had no significative effect on nociception and opioid
analgesia
in the tail flick test but, at the dose of 0.5ng/rat, it reversed the nociceptive effect of Nociceptin and also the antagonistic effect of Nociceptin against
analgesia
caused by the selective opioid agonists: DAMGO, DPDPE, Deltorphin II and U50 488H. These data suggest that Nocistatin antagonizes the effect of Nociceptin on opioid
analgesia
and could play an important role in the regulation of nociceptive transmission.
...
PMID:Effect of supraspinal Nocistatin on Nociceptin/Orphanin FQ antagonism of selective opioid analgesia. 1600 36
We have reported that transplantation of adrenal medullary chromaffin cells that release endogenous opioid peptides into pain modulatory regions in the CNS produce significant antinociceptive effects in patients with terminal cancer pain. However, the usefulness of this procedure is minimal because the availability of human adrenal tissue is very limited. Alternative xenogeneic materials, such as porcine and bovine adrenal chromaffin cells present problems of immune rejection and possible pathogenic contamination. In an attempt to develop opioid peptide-producing cells of autologous origin, we have transfected human mesenchymal stem cells (hMeSCs) with a mammalian expression vector containing a fusion gene of green fluorescent protein (GFP) and human preproenkephalin (hPPE), a
precursor protein
for enkephalin opioid peptides. Enkephalins are major neurotransmitters that play an important role in
analgesia
by activating peripheral opioid receptors. Following the establishment of stable transfection of hMeSCs, the expressions of hPPE and GFP were confirmed and the production of methionine enkephalin (Met-enkephalin) was significantly increased compared to control naive hMeSCs (p < 0.05). Our in vitro data demonstrated that genetically engineered hMeSCs with transfected hPPE gene can constitutively produce opioid peptide Met-enkephalin at an augmented high level. hMeSCs are relatively easy to isolate from a patient's bone marrow aspirates and expand in culture by repeated passages. Autologous hMeSCs would not require immunosuppression when transplanted back into the same patient. Through targeted gene manipulation such as hPPE gene transfection, this may offer a virtually unlimited safe cell supply for the treatment of opioid-sensitive pain in humans.
...
PMID:Genetically engineered human mesenchymal stem cells produce met-enkephalin at augmented higher levels in vitro. 1671 57
