Effects of Gαi2 and Gαz protein knockdown on alpha2A-adrenergic and cannabinoid CB1 receptor regulation of MEK-ERK and FADD pathways in mouse cerebral cortex.

Abstract

Alpha2A-adrenergic (α2A-AR) and cannabinoid CB1 (CB1-R) receptors exert their functions modulating multiple signaling pathways, including MEK-ERK (extracellular signal-regulated kinases) and FADD (Fas-associated protein with death domain) cascades. These molecules are relevant in finding biased agonists with fewer side effects, but the mechanisms involving their modulations by α2A-AR- and CB1-R in vivo are unclear. This study investigated the roles of Gαi2 and Gαz proteins in mediating α2A-AR- and CB1-R-induced alterations of MEK-ERK and FADD phosphorylation (p-) in mouse brain cortex. Gαi2 or Gαz protein knockdown was induced in mice with selective antisense oligodeoxinucleotides (ODNs; 3nmol/day, 5days) prior to UK-14,304 (UK or brimonidine; 1mg/kg) or WIN55212-2 (WIN; 8mg/kg) acute treatments. Inactivated (p-T286) MEK1, activated (p-S217/221) MEK1/2, activated (p-T202/Y204) ERK1/2, p-S191 FADD, and the corresponding total forms of these proteins were quantified by immunoblotting. Increased (+ 88%) p-T286 MEK1 cortical density, with a concomitant reduction (-43%) of activated ERK was observed in UK-treated mice. Both effects were attenuated by Gαi2 or Gαz antisense ODNs. Contrastingly, WIN induced Gαi2- and Gαz-independent upregulations of p-T286 MEK1 (+ 63%), p-S217/221 MEK1/2 (+ 86%), and activated ERK (+ 111%) in brain. Pro-apoptotic FADD was downregulated (- 34 to 39%) following UK and WIN administration, whereas the neuroprotective p-S191 FADD was increased (+ 74%) in WIN-treated mice only. None of these latter effects required from Gαi2 or Gαz protein integrity. The results indicate that α2A-AR (UK), but not CB1-R (WIN), agonists use Gαi2 and Gαz proteins to modulate MEK-ERK, but not FADD, pathway in mouse brain cortex.