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)
One line (strain) of mouse has been selectively bred in our laboratory for 15 generations to exhibit a very high sensitivity to levorphanol-induced
analgesia
on the hot plate assay (HAR or high antinociceptive response line). Concurrently, a second line (
LAR
or low antinociceptive response line) has been bred in the opposite direction, i.e., to exhibit a very low sensitivity under the same conditions. This has resulted in a 7-fold difference in sensitivity between HAR and
LAR
mice as a result of changes in gene frequency. Receptor autoradiographic studies with 3H-DAGO were carried out in the central gray to find receptor populations differing greatly in density between HAR and
LAR
mice to parallel their in vivo sensitivity differences: such receptors would then be implicated in mediating in vivo
analgesia
. The caudal portions of the dorsal raphe nucleus (DRN) showed 1.5- to 2-fold differences in density of mu sites, while the periaqueductal gray (PAG) showed relatively small differences. These results strongly suggest that mu receptors in a portion of the DRN are involved in mediating
analgesia
due to systemically administered opioids in this population of mice.
...
PMID:Where are the mu receptors that mediate opioid analgesia? An autoradiographic study in the HAR and LAR selection lines. 164 10
Two ongoing selective breeding projects have produced mice that display divergent analgesic responses to morphine. These two projects have selected for similar phenotypes: high and low levorphanol
analgesia
(HAR/
LAR
lines; Portland, OR) and high and low swim stress-induced
analgesia
(HA/LA lines; Jastrzebiec, Poland). Evidence suggests genetic commonalities between mice of the two projects. Using a Mendelian breeding protocol, we have recently found that one or two genetic loci predominantly determine the high morphine
analgesia
exhibited by HA mice. In the present study we demonstrate that the differential morphine
analgesia
(5 mg/kg, i.p.) displayed by HAR and
LAR
mice is similarly oligogenic, predominantly determined by two unlinked loci. A complementation analysis, in which the analgesic responses to morphine of the recessive homozygotes of each project (HAR and HA) were compared to those of their hybrid offspring (HAR x HA), revealed that different genetic loci have been fixed in each project. An intriguing bimodal distribution was observed in the HAR x HA population: Some HAR x HA hybrids displayed greater morphine
analgesia
than either HAR or HA mice, whereas others displayed minimal
analgesia
.
LAR
x LA hybrids displayed less
analgesia
than either
LAR
or LA mice. The analgesic responses of HAR x LA and
LAR
x HA mice were comparable to those of their low-line parents. These findings indicate not only that different loci were responsible for producing high morphine responders in each selection project but that these distinct loci can interact synergistically to produce "superhigh" and "superlow" responders.
...
PMID:Oligogenic determination of morphine analgesic magnitude: a genetic analysis of selectively bred mouse lines. 757 70
Two independent selective breeding programs have developed divergent lines of mice expressing either high and low swim stress-induced
analgesia
(HA/LA lines; Jastrzebiec, Poland) or high and low levorphanol
analgesia
(HAR/
LAR
lines; Portland, OR). In the present study, mice from both programs were tested for both levorphanol
analgesia
(2 mg/kg) and an opioid-mediated swim stress-induced
analgesia
(3 min swimming in 32 degrees C water) in the hot-plate test. Mice selected for high and low levorphanol
analgesia
displayed high and low swim stress-induced
analgesia
, respectively; mice selected for high and low swim stress-induced
analgesia
displayed high and low levorphanol
analgesia
, respectively. This pattern of correlated responses suggests a high degree of common genetic determination in opiate and swim stress-induced
analgesia
. These findings also suggest that individual differences in analgesic responsiveness to opiate drugs result from genetically determined individual differences in endogenous pain inhibitory mechanisms.
...
PMID:Levorphanol and swim stress-induced analgesia in selectively bred mice: evidence for genetic commonalities. 849 69
Acute morphine dependence was compared in mice selectively-bred for high (HA) and low (LA) swim stress-induced
analgesia
and high (HAR) and low (
LAR
) levorphanol
analgesia
by counting the number of naloxone-precipitated jumps. Whereas
LAR
mice displayed greater acute morphine dependence than HAR mice, HA and LA mice did not differ. No genotypic differences were observed in non-dependent mice, discounting possible differences in basal naloxone sensitivity and/or opioid peptide levels. Thus, the two selection projects, while both producing lines exhibiting highly divergent sensitivity to morphine
analgesia
, have not had analogous effects on all opioid measures, supporting the notion of independent genetic mediation of opioid
analgesia
and dependence. Further, these data suggest that analgesic sensitivity may not predict sensitivity to morphine dependence.
...
PMID:Acute morphine dependence in mice selectively-bred for high and low analgesia. 985 18
The present study examined mu and delta opioid
analgesia
, receptor binding, and receptor mRNA levels in lines of mice from two selective breeding projects of relevance to opioid
analgesia
. Large differences were observed in the analgesic potency of [d-Ala2, NMPhe4, Gly-ol]enkephalin (DAMGO), [d-Pen2,5]enkephalin (DPDPE), and [d-Ala2]deltorphin II (DELT), selective mu, delta1, and delta2 opioid receptor agonists, respectively, in mice selectively bred for high (HA) and low (LA) swim stress-induced
analgesia
(SIA). HAR and
LAR
mice, selectively bred for high and low levorphanol
analgesia
, respectively, display equally large differences in their analgesic sensitivity to DAMGO, modest differences in sensitivity to DPDPE, and no differences in sensitivity to DELT. These sizable genotypic differences in analgesic potency were accompanied by HA/LA and HAR/
LAR
differences in whole-brain homogenate [3H]DPDPE and/or [3H]DELT, but paradoxically not [3H]DAMGO, binding. Solution hybridization of mRNA extracts encoding mu (MOR-1) or delta (DOR-1) opioid receptors indicated some regional differences in gene expression between high and low lines. Surprisingly, differences in these in vitro markers were often in the direction of LAR>HAR. The present data indicate that selection for either SSIA or levorphanol
analgesia
produces differential effects on mu and delta opioid
analgesia
that are accompanied by alterations on in vitro assays, the significance of which remains to be determined. The data are discussed with regard to the utility of in vitro biological markers and genetic models of
analgesia
.
...
PMID:Mu and delta opioid receptor analgesia, binding density, and mRNA levels in mice selectively bred for high and low analgesia. 987 41
