Enhanced morphine analgesia in mice lacking β-arrestin 2

LM Bohn, RJ Lefkowitz, RR Gainetdinov, K Peppel… - Science, 1999 - science.org
Science, 1999science.org
The ability of morphine to alleviate pain is mediated through a heterotrimeric guanine
nucleotide binding protein (G protein)–coupled heptahelical receptor (GPCR), the μ opioid
receptor (μOR). The efficiency of GPCR signaling is tightly regulated and ultimately limited
by the coordinated phosphorylation of the receptors by specific GPCR kinases and the
subsequent interaction of the phosphorylated receptors with β-arrestin 1 and β-arrestin 2.
Functional deletion of the β-arrestin 2 gene in mice resulted in remarkable potentiation and …
The ability of morphine to alleviate pain is mediated through a heterotrimeric guanine nucleotide binding protein (G protein)–coupled heptahelical receptor (GPCR), the μ opioid receptor (μOR). The efficiency of GPCR signaling is tightly regulated and ultimately limited by the coordinated phosphorylation of the receptors by specific GPCR kinases and the subsequent interaction of the phosphorylated receptors with β-arrestin 1 and β-arrestin 2. Functional deletion of the β-arrestin 2 gene in mice resulted in remarkable potentiation and prolongation of the analgesic effect of morphine, suggesting that μOR desensitization was impaired. These results provide evidence in vivo for the physiological importance of β-arrestin 2 in regulating the function of a specific GPCR, the μOR. Moreover, they suggest that inhibition of β-arrestin 2 function might lead to enhanced analgesic effectiveness of morphine and provide potential new avenues for the study and treatment of pain, narcotic tolerance, and dependence.
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