Daniel J. Morgan scite author profile

Morphine produces analgesia by activating mu opioid receptors encoded by the MOR-1 gene. Although morphine-6 beta-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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Mutation of Putative GRK Phosphorylation Sites in the Cannabinoid Receptor 1 (CB₁R) Confers Resistance to Cannabinoid Tolerance and Hypersensitivity to Cannabinoids in Mice

Morgan¹,

Davis

Kearn

et al. 2014

J. Neurosci.

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For many G-protein-coupled receptors (GPCRs), including cannabinoid receptor 1 (CB 1 R), desensitization has been proposed as a principal mechanism driving initial tolerance to agonists. GPCR desensitization typically requires phosphorylation by a G-proteincoupled receptor kinase (GRK) and interaction of the phosphorylated receptor with an arrestin. In simple model systems, CB 1 R is desensitized by GRK phosphorylation at two serine residues (S426 and S430). However, the role of these serine residues in tolerance and dependence for cannabinoids in vivo was unclear. Therefore, we generated mice where S426 and S430 were mutated to nonphosphorylatable alanines (S426A/S430A). S426A/S430A mutant mice were more sensitive to acutely administered delta-9-tetrahydrocannabinol (⌬ 9 -THC), have delayed tolerance to ⌬ 9 -THC, and showed increased dependence for ⌬ 9-THC. S426A/S430A mutants also showed increased responses to elevated levels of endogenous cannabinoids. CB 1 R desensitization in the periaqueductal gray and spinal cord following 7 d of treatment with ⌬ 9 -THC was absent in S426A/S430A mutants. ⌬ 9 -THC-induced downregulation of CB 1 R in the spinal cord was also absent in S426A/S430A mutants. Cultured autaptic hippocampal neurons from S426A/S430A mice showed enhanced endocannabinoid-mediated depolarization-induced suppression of excitation (DSE) and reduced agonist-mediated desensitization of DSE. These results indicate that S426 and S430 play major roles in the acute response to, tolerance to, and dependence on cannabinoids. Additionally, S426A/S430A mice are a novel model for studying pathophysiological processes thought to involve excessive endocannabinoid signaling such as drug addiction and metabolic disease. These mice also validate the approach of mutating GRK phosphorylation sites involved in desensitization as a general means to confer exaggerated signaling to GPCRs in vivo.

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The propeptide precursor proSAAS is involved in fetal neuropeptide processing and body weight regulation

Morgan

Wei

Gomes

et al. 2010

Journal of Neurochemistry

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Mice with a targeted mutation in proSAAS have been generated to investigate whether peptides derived from this precursor could function as an inhibitor of prohormone convertase 1/3 (PC1/3) in vivo as well as to determine any alternate roles for proSAAS in nervous and endocrine tissues. Fetal mice lacking proSAAS exhibit complete, adult-like processing of prodynorphin in the prenatal brain instead of the incomplete processing seen in the brains of wild-type fetal mice where inhibitory proSAAS intermediates are transiently accumulated. This study provides evidence that proSAAS is directly involved in the prenatal regulation of neuropeptide processing in vivo. However, adult mice lacking proSAAS have normal levels of all peptides detected using a peptidomics approach, suggesting that PC1/3 activity is not affected by the absence of proSAAS in adult mice. ProSAAS knockout mice exhibit decreased locomotion and a male-specific 10-15% decrease in body weight, but maintain normal fasting blood glucose levels and are able to efficiently clear glucose from the blood in response to a glucose challenge. This work suggests that proSAAS-derived peptides can inhibit PC1/3 in embryonic brain, but in the adult brain proSAAS peptides may function as neuropeptides that regulate body weight or potentially other behaviors.

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Circadian Integration of Glutamatergic Signals by Little SAAS in Novel Suprachiasmatic Circuits

et al. 2010

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BackgroundNeuropeptides are critical integrative elements within the central circadian clock in the suprachiasmatic nucleus (SCN), where they mediate both cell-to-cell synchronization and phase adjustments that cause light entrainment. Forward peptidomics identified little SAAS, derived from the proSAAS prohormone, among novel SCN peptides, but its role in the SCN is poorly understood.Methodology/Principal FindingsLittle SAAS localization and co-expression with established SCN neuropeptides were evaluated by immunohistochemistry using highly specific antisera and stereological analysis. Functional context was assessed relative to c-FOS induction in light-stimulated animals and on neuronal circadian rhythms in glutamate-stimulated brain slices. We found that little SAAS-expressing neurons comprise the third most abundant neuropeptidergic class (16.4%) with unusual functional circuit contexts. Little SAAS is localized within the densely retinorecipient central SCN of both rat and mouse, but not the retinohypothalamic tract (RHT). Some little SAAS colocalizes with vasoactive intestinal polypeptide (VIP) or gastrin-releasing peptide (GRP), known mediators of light signals, but not arginine vasopressin (AVP). Nearly 50% of little SAAS neurons express c-FOS in response to light exposure in early night. Blockade of signals that relay light information, via NMDA receptors or VIP- and GRP-cognate receptors, has no effect on phase delays of circadian rhythms induced by little SAAS.Conclusions/SignificanceLittle SAAS relays signals downstream of light/glutamatergic signaling from eye to SCN, and independent of VIP and GRP action. These findings suggest that little SAAS forms a third SCN neuropeptidergic system, processing light information and activating phase-shifts within novel circuits of the central circadian clock.

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Daniel J. Morgan

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

Mutation of Putative GRK Phosphorylation Sites in the Cannabinoid Receptor 1 (CB₁R) Confers Resistance to Cannabinoid Tolerance and Hypersensitivity to Cannabinoids in Mice

The propeptide precursor proSAAS is involved in fetal neuropeptide processing and body weight regulation

Circadian Integration of Glutamatergic Signals by Little SAAS in Novel Suprachiasmatic Circuits

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Daniel J. Morgan

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

Mutation of Putative GRK Phosphorylation Sites in the Cannabinoid Receptor 1 (CB1R) Confers Resistance to Cannabinoid Tolerance and Hypersensitivity to Cannabinoids in Mice

The propeptide precursor proSAAS is involved in fetal neuropeptide processing and body weight regulation

Circadian Integration of Glutamatergic Signals by Little SAAS in Novel Suprachiasmatic Circuits

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Mutation of Putative GRK Phosphorylation Sites in the Cannabinoid Receptor 1 (CB₁R) Confers Resistance to Cannabinoid Tolerance and Hypersensitivity to Cannabinoids in Mice