Retention of heroin and morphine–6β–glucuronide analgesia in a new line of mice lacking exon 1 of MOR–1

AGP Schuller, MA King, J Zhang, E Bolan, YX Pan… - Nature …, 1999 - nature.com
AGP Schuller, MA King, J Zhang, E Bolan, YX Pan, DJ Morgan, A Chang, ME Czick…
Nature neuroscience, 1999nature.com
Morphine produces analgesia by activating mu opioid receptors encoded by the MOR–1
gene. Although morphine–6β–glucuronide (M6G), heroin and 6–acetylmorphine also are
considered mu opioids, recent evidence suggests that they act through a distinct receptor
mechanism. We examined this question in knockout mice containing disruptions of either the
first or second coding exon of MOR–1. Mice homozygous for either MOR–1 mutation were
insensitive to morphine. Heroin, 6–acetylmorphine and M6G still elicited analgesia in the …
Abstract
Morphine produces analgesia by activating mu opioid receptors encoded by the MOR–1 gene. Although morphine–6β–glucuronide (M6G), heroin and 6–acetylmorphine also are considered mu opioids, recent evidence suggests that they act through a distinct receptor mechanism. We examined this question in knockout mice containing disruptions of either the first or second coding exon of MOR–1. Mice homozygous for either MOR–1 mutation were insensitive to morphine. Heroin, 6–acetylmorphine and M6G still elicited analgesia in the exon–1 MOR–1 mutant, which also showed specific M6G binding, whereas M6G and 6–acetylmorphine were inactive in the exon–2 MOR–1 mutant. These results provide genetic evidence for a unique receptor site for M6G and heroin analgesia.
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