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Target Concepts:
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Query: UMLS:C0344307 (
analgesia
)
28,200
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This paper reports that regulators of G-protein signalling (RGS) proteins modulate the timing and amplitude of opioid signals by a push-pull mechanism. This is achieved without noticeable changes in the binding properties of opioids, e.g. beta-endorphin to mu-opioid receptors. The expression of RGS proteins was reduced by blocking their mRNA with antisense oligodeoxynucleotides (ODN). Knock down of
RGS2
or RGS3 diminished morphine and beta-endorphin
analgesia
, whereas that of RGS9 or RGS12 enhanced this activity. In mice with impaired RGS9, but not impaired
RGS2
, the potency and, in particular, the duration of opioid antinociception increased. Further, the animals did not exhibit acute tolerance generated by a single and efficacious dose of morphine, nor did they develop tolerance after a daily i.c.v. injection of the opioid for 4 days. In a model of sustained morphine treatment, the impairment of RGS9 proteins facilitated increases in the response to the delivered opioid. This was only effective for 2--3 h after the subcutaneous implantation of an oily morphine pellet; later, tolerance developed. To reduce the impact of the chronic morphine acting on opioid receptors, other RGS proteins presumably substitute the GTPase-activating function of RGS9 on morphine-activated G-alpha-GTP subunits. The desensitization of mu-opioid receptors appears to be a cell membrane-limited process facilitated by RGS9's sequestering of agonist-segregated G alpha subunits.
...
PMID:RGS9 proteins facilitate acute tolerance to mu-opioid effects. 1120 15
