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Query: UMLS:C0030193 (
pain
)
261,466
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Opioid peptides derived from proenkephalin and prodynorphin are differentially distributed in the spinal cord. Proenkephalin peptides are preferentially located in the sacral portion of the cord while prodynorphin peptides are concentrated in the cervical spinal cord.
Mu opioid receptor
are highly concentrated in superficial layers of the dorsal horn in all the spinal cord. Delta opioid receptor are more diffusely distributed in the gray matter of the spinal cord. These sites are principally located in cervical and thoracic portions of the spinal cord. Kappa opioid receptors are highly concentrated in the superficial layers of the lumbo-sacral spinal cord. Its density decreased in the upper levels of the spinal cord. It appears that mu opioid receptors are indifferentially activated by thermal, pressure and visceral nociceptive inputs. Delta receptors are more likely to be involved in thermal nociception while kappa opioid binding sites are associated to visceral
pain
nociceptive inputs.
...
PMID:Pain, nociception and spinal opioid receptors. 615 41
Stereotypies are the most common abnormal behaviours in sows. Stereotypies are repeated, relatively invariable sequences of movements which have no obvious purpose.
Mu opioid receptor
is a member of G protein-coupled receptor family, distributed in the
pain
transduction region in the brain and related emotion and behavior regions where influence the animal neural reaction and behavior. The possibility of the MOR gene as the candidate gene to affect the stereotyped behavior traits in sows was discussed in this study. The primer of sow MOR gene exon III partial sequence was designed to analyze single nucleotide polymorphisms by PCR -SSCP in Landrace, Yorkshire and Duroc breeds. Two polymorphisms were found, which was caused by a single nucleotide mutation of C to T and C to A at the positions of 1169 and 1226, respectively compared with the sequence in GenBank, but it was the silence mutation. The results of chi 2 test showed that the frequencies of genotypes resulted in different breeds were significantly different (P < 0.01). The least square analysis between the nucleotide acid mutant induced three genotypes and the stereotyped behavioral traits in Yorkshire showed that individuals with BB genotype have significant higher (P < 0.01) sham-chewing behavior than those with AA genotype, but not for bar-biting and standing. According to the above results, we can putatively draw the conclusion that MOR gene is probably the major gene affecting the sham-chewing behavioral traits or linked to the major gene.
...
PMID:[Single nucleotide polymorphism analysis in sow mu opioid receptor gene exon III]. 1281 73
Opioid requirements in neonatal patients are reported to be lower than older infants and this may be a reflection of the developmental regulation of opioid receptors. In this study we have investigated the postnatal regulation of
Mu opioid receptor
(
MOR
) function in both rat lumbar dorsal root ganglion (DRG) cultures and behavioural mechanical and thermal reflex tests in rat pups. Immunostaining with
MOR
and selective neurofilament (NF200) antibodies was combined with calcium imaging of
MOR
function in cultured neonatal and adult rat dorsal root ganglion cells. Calcium imaging showed that a significantly greater number of neonatal DRG neurons expressed functional
MOR
compared to adult (56.5+/-3.4 versus 39.9+/-1.5%, n=8, mean+/-SEM, P<0.001). This expression is confined to the large, neurofilament positive sensory neurons, while expression in small, nociceptive, neurofilament negative neurons remains unchanged. Sensory threshold testing in rat pups showed that the analgesic potency of systemic morphine to mechanical stimulation is significantly greater in the neonate and declines with postnatal age. Morphine analgesic potency in thermal nociceptive tests did not change with postnatal age. These experiments show that the
MOR
expressed on large DRG neurons in neonates are functional and are subject to postnatal developmental regulation. This changing functional receptor profile is consistent with greater morphine potency in mechanical, but not thermal, sensory tests in young animals. These results have important clinical implications for the use of morphine in neonates and provide a possible explanation for the differences in morphine requirements observed in the youngest patients.
Pain
2004 Sep
PMID:The functional expression of mu opioid receptors on sensory neurons is developmentally regulated; morphine analgesia is less selective in the neonate. 1532 7
Mu opioid receptor
(
MOR
) is a member of G protein-coupled receptor family, distributed in the
pain
transduction region in the brain and related to emotion and behaviour. This study was designed to investigate the Single Nucleotide Polymorphism (SNP) of
Mu opioid receptor
gene in various breeds,including duroc, landrace and Yorkshire. 5' UTR (untranslate region), coding region and 3' UTR of
Mu opioid receptor
gene were amplified by eight pairs of primers, and the Single Nucleotide Polymorphism (SNP) were detected by SSCP. Five polymorphisms were found (Genebank Accession number: AF521309). The results of chi(2) test showed that the frequencies of genotypes in different breeds were significantly different (P<0.01). The frequencies of mutation genotypes in Yorkshire were significantly higher than Duroc and Landrace. According to the above results, we can speculate the difference of the frequencies of genotypes may be the results of long term choice pressure.
...
PMID:[Single nucleotide polymorphism analysis in sow mu opioid receptor gene]. 1562 66
Sickle cell anemia is a common genetic disorder in African Americans. Opioid analgesics are traditionally the treatment for the severe
pain
associated with this disease. Here we reveal that the opioid antagonist naloxone possesses potent analgesic activity in two transgenic mouse models of sickle cell anemia (NY1DD and hBERK1) and not in their respective controls (ICR-CD1 and C57BL/6J) when administered by three parenteral routes [intracerebroventricular (i.c.v.), intrathecal, and subcutaneous]. In the NY1DD mice, naloxone (i.c.v.) possessed approximately 300-fold greater potency than morphine (i.c.v.). Other opioid antagonists (naltrexone, norbinaltorphimine, and naltrindole) were substantially less effective in producing analgesia. Naloxone and morphine were synergistic in NY1DD mice, suggesting different receptor systems. Microarray analysis suggested naloxone-induced down-regulation of the CC chemokine receptor (CCR)5 in NY1DD mice but not in control mice. Pretreatment of control mice with CC chemokine ligand 5 [CCL5 (RANTES)] enabled naloxone to produce analgesia similar to that observed in NY1DD mice.
Mu opioid receptor
knockout mice treated similarly also displayed analgesia. That the effect of CCL5 was specifically related to CCR5 and/or CCR1 activation was demonstrated by antagonism of analgesia with the chemokine antagonist methionylated RANTES. Similar antagonism of naloxone-induced analgesia also was observed when NY1DD mice were pretreated with methionylated RANTES. These results indicate that CCR5/CCR1 receptors are directly or indirectly involved in analgesia produced by naloxone. The present study suggests that naloxone may be clinically useful in the treatment of
pain
associated with sickle cell disease and other disorders involving inflammation.
...
PMID:Naloxone acts as a potent analgesic in transgenic mouse models of sickle cell anemia. 1738 63
Mu opioid receptor
(
MOR
) agonists are widely used for the treatment of
pain
; however, chronic use results in the development of tolerance and dependence. It has been demonstrated that coadministration of a
MOR
agonist with a delta opioid receptor (DOR) antagonist maintains the analgesia associated with
MOR
agonists, but with reduced negative side-effects. Using our newly refined opioid receptor models for structure-based ligand design, we have synthesized several pentapeptides with tailored affinity and efficacy profiles. In particular, we have obtained pentapeptides 8, Tyr-c(S-S)[DCys-1Nal-Nle-Cys]NH(2), and 12, Tyr-c(S-S)[DCys-1Nal-Nle-Cys]OH, which demonstrates high affinity and full agonist behavior at
MOR
, high affinity but very low efficacy for DOR, and minimal affinity for the kappa opioid receptor (KOR). Functional properties of these peptides as
MOR
agonists/DOR antagonists lacking undesired KOR activity make them promising candidates for future in vivo studies of
MOR
/DOR interactions. Subtle structural variation of 12, by substituting D-Cys(5) for L-Cys(5), generated analog 13, which maintains low nanomolar
MOR
and DOR affinity, but which displays no efficacy at either receptor. These results demonstrate the power and utility of accurate receptor models for structure-based ligand design, as well as the profound sensitivity of ligand function on its structure.
...
PMID:Modulation of opioid receptor ligand affinity and efficacy using active and inactive state receptor models. 2288 1
Opioids produce strong analgesia but their use is limited by a paradoxical hypersensitivity named opioid-induced hyperalgesia (OIH) that may be associated to analgesic tolerance. In the last decades, a significant number of preclinical studies have investigated the factors that modulate OIH development as well as the cellular and molecular mechanisms underlying OIH. Several factors have been shown to influence OIH including the genetic background and sex differences of experimental animals as well as the opioid regimen.
Mu opioid receptor
(
MOR
) variants and interactions of
MOR
with different proteins were shown important. Furthermore, at the cellular level, both neurons and glia play a major role in OIH development. Several neuronal processes contribute to OIH, like activation of neuroexcitatory mechanisms, long-term potentiation (LTP) and descending
pain
facilitation. Increased nociception is also mediated by neuroinflammation induced by the activation of microglia and astrocytes. Neurons and glial cells exert synergistic effects, which contribute to OIH. The molecular actors identified include the Toll-like receptor 4 and the anti-opioid systems as well as some other excitatory molecules, receptors, channels, chemokines, pro-inflammatory cytokines or lipids. This review summarizes the intracellular and intercellular pathways involved in OIH and highlights some mechanisms that may be challenged to limit OIH in the future.
...
PMID:Opioid-induced hyperalgesia: Cellular and molecular mechanisms. 2734 46
Mu opioid receptor
(
MOR
) activation facilitates reward processing and reduces
pain
, and brain networks underlying these effects are under intense investigation. Mice lacking the
MOR
gene (
MOR
KO mice) show lower drug and social reward, enhanced
pain
sensitivity and altered emotional responses. Our previous neuroimaging analysis using Resting-state (Rs) functional Magnetic Resonance Imaging (fMRI) showed significant alterations of functional connectivity (FC) within reward/aversion networks in these mice, in agreement with their behavioral deficits. Here we further used a structural MRI approach to determine whether volumetric alterations also occur in
MOR
KO mice. We acquired anatomical images using a 7-Tesla MRI scanner and measured deformation-based morphometry (DBM) for each voxel in subjects from
MOR
KO and control groups. Our analysis shows marked anatomical differences in mutant animals. We observed both local volumetric contraction (striatum, nucleus accumbens, bed nucleus of the stria terminalis, hippocampus, hypothalamus and periacqueducal gray) and expansion (prefrontal cortex, amygdala, habenula, and periacqueducal gray) at voxel level. Volumetric modifications occurred mainly in
MOR
-enriched regions and across reward/aversion centers, consistent with our prior FC findings. Specifically, several regions with volume differences corresponded to components showing highest FC changes in our previous Rs-fMRI study, suggesting a possible function-structure relationship in
MOR
KO-related brain differences. In conclusion, both Rs-fMRI and volumetric MRI in live
MOR
KO mice concur to disclose functional and structural whole-brain level mechanisms that likely drive
MOR
-controlled behaviors in animals, and may translate to
MOR
-associated endophenotypes or disease in humans.
...
PMID:Deformation-based Morphometry MRI Reveals Brain Structural Modifications in Living Mu Opioid Receptor Knockout Mice. 3055 85
Mu opioid receptor
(
MOR
)-targeting analgesics are efficacious
pain
treatments, but notorious for their abuse potential. In preclinical animal models, coadministration of traditional kappa opioid receptor (KOR)-targeting agonists with
MOR
-targeting analgesics can decrease reward and potentiate analgesia. However, traditional KOR-targeting agonists are well known for inducing antitherapeutic side effects (psychotomimesis, depression, anxiety, dysphoria). Recent data suggest that some functionally selective, or biased, KOR-targeting agonists might retain the therapeutic effects of KOR activation without inducing undesirable side effects. Nalfurafine, used safely in Japan since 2009 for uremic pruritus, is one such functionally selective KOR-targeting agonist. Here, we quantify the bias of nalfurafine and several other KOR agonists relative to an unbiased reference standard (U50,488) and show that nalfurafine and EOM-salvinorin-B demonstrate marked G protein-signaling bias. While nalfurafine (0.015 mg/kg) and EOM-salvinorin-B (1 mg/kg) produced spinal antinociception equivalent to 5 mg/kg U50,488, only nalfurafine significantly enhanced the supraspinal analgesic effect of 5 mg/kg morphine. In addition, 0.015 mg/kg nalfurafine did not produce significant conditioned place aversion, yet retained the ability to reduce morphine-induced conditioned place preference in C57BL/6J mice. Nalfurafine and EOM-salvinorin-B each produced robust inhibition of both spontaneous and morphine-stimulated locomotor behavior, suggesting a persistence of sedative effects when coadministered with morphine. Taken together, these findings suggest that nalfurafine produces analgesic augmentation, while also reducing opioid-induced reward with less risk of dysphoria. Thus, adjuvant administration of G protein-biased KOR agonists like nalfurafine may be beneficial in enhancing the therapeutic potential of
MOR
-targeting analgesics, such as morphine.
...
PMID:Preclinical Testing of Nalfurafine as an Opioid-sparing Adjuvant that Potentiates Analgesia by the Mu Opioid Receptor-targeting Agonist Morphine. 3149 23
Mu opioid receptor
(
MOR
) is involved in various brain functions, such as
pain
modulation, reward processing, and addictive behaviors, and mediates the main pharmacologic effects of morphine and other opioid compounds. To gain genetic access to
MOR
-expressing cells, and to study physiological and pathological roles of
MOR
signaling, we generated a
MOR
-CreER knock-in mouse line, in which the stop codon of the Oprm1 gene was replaced by a DNA fragment encoding a T2A peptide and tamoxifen (Tm)-inducible Cre recombinase. We show that the
MOR
-CreER allele undergoes Tm-dependent recombination in a discrete subtype of neurons that express
MOR
in the adult nervous system, including the olfactory bulb, cerebral cortex, striosome compartments in the striatum, hippocampus, amygdala, thalamus, hypothalamus, interpeduncular nucleus, superior and inferior colliculi, periaqueductal gray, parabrachial nuclei, cochlear nucleus, raphe nuclei, pontine and medullary reticular formation, ambiguus nucleus, solitary nucleus, spinal cord, and dorsal root ganglia. The
MOR
-CreER mouse line combined with a Cre-dependent adeno-associated virus vector enables robust gene manipulation in the
MOR
-enriched striosomes. Furthermore, Tm treatment during prenatal development effectively induces Cre-mediated recombination. Thus, the
MOR
-CreER mouse is a powerful tool to study
MOR
-expressing cells with conditional gene manipulation in developing and mature neural tissues.
...
PMID:Generation of a MOR-CreER knock-in mouse line to study cells and neural circuits involved in mu opioid receptor signaling. 3165 Oct 80
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