Role of G(i)alpha2-protein in opioid tolerance and mu-opioid receptor downregulation in vivo.

Although opioid receptors are G-protein coupled, the role that specific G-protein subunits play in the development of opioid tolerance and the regulation of opioid receptor number is not well understood. In the present study, we used a G((i)alpha2) antisense oligodeoxynucleotide (ODN) to examine the contribution of G((i)alpha2) proteins to mu-opioid tolerance and receptor downregulation in the mouse. Mice were injected intracerebroventricularly (ICV) and into the spinal intrathecal space (IT) for 4-5 consecutive days (30 microg/site/day), with an antisense ODN or a mismatch ODN directed at mRNA for the G((i)alpha2) subunit of G-proteins. Controls were treated with dH(2)O. On the second day of ODN treatment continuous subcutaneous (SC) infusion of etorphine (200 microg/kg/day) or morphine (40 mg/kg/day + 25 mg pellet) was begun. Control mice were implanted with inert placebo pellets. Three days later, pumps and pellets were removed and mice were tested for morphine analgesia or mu-opioid receptor density was determined in whole brain. Etorphine produced significant tolerance (ED(50) shift = approximately 11-fold) and downregulation of mu-opioid receptors (approximately 25%). Morphine treatment produced significant tolerance (ED(50) shift approximately 9-fold), but no mu-opioid receptor downregulation. Antisense treatment reduced G((i)alpha2) protein levels in striatum and spinal cord by approximately 25%. G((i)alpha2) antisense reduced the acute potency of morphine. G((i)alpha2) antisense blocked the development of tolerance to morphine treatment and reduced the development of tolerance to etorphine treatment. Antisense did not have any effect on etorphine-induced mu-opioid receptor downregulation. In another experiment, 7-day treatment with morphine or etorphine similarly increased G((i)alpha2) mRNA and protein abundance in spinal cord. Overall, these results support an important role for G((i)alpha2)-protein in the acute effects of opioids and opioid tolerance. However, G((i)alpha2) is not required for agonist-induced mu-opioid receptor density regulation in vivo. Copyright 2002 Wiley-Liss, Inc.