β‐Arrestin 2 dependence of δ opioid receptor agonists is correlated with alcohol intake

Chiang, Terrance; Sansuk, Kamonchanok; Rijn, Richard M. van

doi:10.1111/bph.13374

Cited by 65 publications

(119 citation statements)

References 53 publications

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“…Besides a role in antinociception, DORs are implicated in alcohol consumption, depression and anxiety including alcohol withdrawal-induced anxiety (Filliol et al, 2000; Saitoh et al, 2004; van Rijn et al, 2010; Vergura et al, 2008). We and others have shown in preclinal animal models that the DOR-selective agonist TAN-67 can produce analgesia and reduce alcohol intake, depression and anxiety (Chiang et al, 2016; Kamei et al, 1995; van Rijn et al, 2010; van Rijn and Whistler, 2009). Hence, we were interested in investigating whether TAN-67, specifically, would alleviate AWiMA.…”

Section: Discussionmentioning

confidence: 95%

“…TAN-67 has frequently been labeled as a DOR1-selective agonist. The pharmacology underlying the subtypes is not well defined, but our data suggests that TAN-67 may interact with DOR-mu opioid receptor heteromers (van Rijn and Whistler, 2009) and have strong G-protein signaling bias, with limited efficacy for β-arrestin2 recruitment (Chiang et al, 2016). While our data would support DORs as a drug target for prevention but not treatment of AWiMA, it is important to consider that DOR agonists alleviate other components of the alcohol withdrawal syndrome.…”

Section: Discussionmentioning

confidence: 97%

“…While our data would support DORs as a drug target for prevention but not treatment of AWiMA, it is important to consider that DOR agonists alleviate other components of the alcohol withdrawal syndrome. Also, different DOR agonists with an intermediate β-arrestin2 recruitment efficacy such as KNT-127 (Chiang et al, 2016; Nagase et al, 2010; Nozaki et al, 2014; Saitoh et al, 2011) may be more capable of reducing alcohol withdrawal induced hyperalgesia.…”

Section: Discussionmentioning

confidence: 99%

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Involvement of delta opioid receptors in alcohol withdrawal-induced mechanical allodynia in male C57BL/6 mice

Alongkronrusmee

Chiang

Rijn

2016

Drug and Alcohol Dependence

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Background As a legal drug, alcohol is commonly abused and it is estimated that 17 million adults in the United States suffer from alcohol use disorder. Heavy alcoholics can experience withdrawal symptoms including anxiety and mechanical allodynia that can facilitate relapse. The molecular mechanisms underlying this phenomenon are not well understood, which stifles development of new therapeutics. Here we investigate whether delta opioid receptors (DORs) play an active role in alcohol withdrawal-induced mechanical allodynia (AWiMA) and if DOR agonists may provide analgesic relief from AWiMA. Methods To study AWiMA, adult male wild-type and DOR knockout C57BL/6 mice were exposed to alcohol by a voluntary drinking model or oral gavage exposure model, which we developed and validated here. We also used the DOR-selective agonist TAN-67 and antagonist naltrindole to examine the involvement of DORs in AWiMA, which was measured using a von Frey model of mechanical allodynia. Results We created a robust model of alcohol withdrawal-induced anxiety and mechanical allodynia by orally gavaging mice with 3 g/kg alcohol for three weeks. AWiMA was exacerbated and prolonged in DOR knockout mice as well as by pharmacological blockade of DORs compared to control mice. However, analgesia induced by TAN-67 was attenuated during withdrawal in alcohol-gavaged mice. Conclusions DORs appear to play a protective role in the establishment of AWiMA. Our current results indicate that DORs could be targeted to prevent or reduce the development of AWiMA during alcohol use; however, DORs may be a less suitable target to treat AWiMA during active withdrawal.

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Section: Discussionmentioning

confidence: 95%

Section: Discussionmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

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Involvement of delta opioid receptors in alcohol withdrawal-induced mechanical allodynia in male C57BL/6 mice

Alongkronrusmee

Chiang

Rijn

2016

Drug and Alcohol Dependence

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“…Alternatively, these specific DOPr-mediated behaviors may be generated by a G protein-independent, arrestin-mediated signaling mechanism (Violin 2014). Previous studies demonstrated that DOPr activation leads to signaling through G protein-dependent and - independent pathways (Bradbury et al 2009; Charfi et al 2014; Charfi et al 2015); however, there are few reports connecting these distinct signaling mechanisms to specific behavioral outputs (Chiang et al 2016; Pradhan et al 2016). In conclusion, this study demonstrates that RGS4 differentially regulates SNC80-induced behaviors, suggesting that different molecular or cellular signaling pathways or neurocircuitry mediate these behavioral outcomes.…”

Section: Discussionmentioning

confidence: 99%

The role of regulator of G protein signaling 4 in delta-opioid receptor-mediated behaviors

et al. 2016

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Rationale Regulator of G protein signaling (RGS) proteins act as negative modulators of G protein signaling. RGS4 has been shown to negatively modulate G protein signaling mediated by the delta opioid receptor (DOPr) in vitro. However, the role of RGS4 in modulating DOPr-mediated behaviors in vivo has not been elucidated. Objective The aim of this study was to compare the ability of the DOPr agonist SNC80 to induce DOPr-mediated antinociception, antihyperalgesia, antidepressant-like effects, and convulsions in wildtype and RGS4 knockout mice. Methods Antinociception was assessed in the acetic acid stretch assay. Antihyperalgesia was measured in a nitroglycerin-induced thermal hyperalgesia assay. Antidepressant-like effects were evaluated in the forced swim and tail suspension tests. Mice were also observed for convulsive activity post-SNC80 treatment. SNC80-induced phosphorylation of MAP kinase in striatal tissue from RGS4 wild-type and knockout mice was quantified by Western blot. DOPr number from forebrain tissue was measured using [3H]DPDPE saturation binding. Results Elimination of RGS4 potentiated SNC80-induced antinociception and antihyperalgesia. SNC80-induced antidepressant-like effects were potentiated in RGS4 knockout mice in the forced swim test but not the tail suspension test. Additionally, RGS4 knockout did not alter SNC80-induced convulsions. SNC80-induced phosphorylation of MAP kinase was potentiated in striatum from RGS4 knockout mice. Loss of RGS4 did not affect total DOPr number. Conclusions Overall, these findings demonstrate that reduction of RGS4 functionally increases the therapeutic index of SNC80. These results provide the first evidence of differential regulation of DOPr-mediated behaviors by RGS proteins and G protein signaling pathways.

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“…[12][13][14] As such, relatively few studies have systematically assessed this alternate pathway despite its important roles in regulating OR desensitization, and purported promotion of β-arrestin-dependent signal transduction through the scaffolding of various kinases. 15 An increasing number of studies have implicated δOR mediated β-arrestin recruitment with various (patho)physiological effects, ranging from tolerance, 16 alcohol intake 17,18 and δOR agonist-induced seizures. 16 To minimize these adverse effects, the development of "biased" ligands that can selectively activate the G protein pathway, without engaging the β-arrestinassociated pathways, 19 may provide a key set of pharmacological tools for reevaluating the drugability of δOR for several disease states.…”

Section: Introductionmentioning

confidence: 99%

The Meta-Position of Phe⁴ in Leu-enkephalin Regulates Potency, Selectivity, Functional Activity, and Signaling Bias at the Delta and Mu Opioid Receptors

Cassell

Sharma

et al. 2019

Preprint

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Activation of an opioid receptor can trigger two distinct pathways (G protein coupling and arrestin recruitment) that differentially regulate a host of desired and undesired pharmacological effects. To explore the pharmacology of these pathways and to differentiate desired pharmacological effects from undesired side effects, "biased" ligands, those that selectively activate one pathway over the other, serve as useful tool compounds. Though an extensive array of biased ligands have been developed for exploring µ-opioid receptor pharmacology, few studies have explored biased ligands for the δ-opioid receptor, which is not associated with the detrimental side effects mediated by the µ-opioid receptor.Herein, we explore the Phe 4 position of the endogenous δ-opioid receptor ligand, Leuenkephalin (Tyr-Gly-Gly-Phe-Leu). Substitution of the meta-position of Phe 4 of Leu-enkephalin provides high-affinity ligands with varying levels of selectivity and bias at both the δ-opioid receptor and µ-opioid receptor, while substitution with picoline derivatives produced loweraffinity ligands with good biases at both receptors. Further, Phe 4 substitution also improves peptide stability relative to Leu-enkephalin. Overall, these favorable substitutions to the metaposition of Phe 4 might be combined with other modifications to Leu-enkephalin to deliver improved ligands with finely tuned potency, selectivity, bias and drug-like properties.

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β‐Arrestin 2 dependence of δ opioid receptor agonists is correlated with alcohol intake

Cited by 65 publications

References 53 publications

Involvement of delta opioid receptors in alcohol withdrawal-induced mechanical allodynia in male C57BL/6 mice

Involvement of delta opioid receptors in alcohol withdrawal-induced mechanical allodynia in male C57BL/6 mice

The role of regulator of G protein signaling 4 in delta-opioid receptor-mediated behaviors

The Meta-Position of Phe⁴ in Leu-enkephalin Regulates Potency, Selectivity, Functional Activity, and Signaling Bias at the Delta and Mu Opioid Receptors

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β‐Arrestin 2 dependence of δ opioid receptor agonists is correlated with alcohol intake

Cited by 65 publications

References 53 publications

Involvement of delta opioid receptors in alcohol withdrawal-induced mechanical allodynia in male C57BL/6 mice

Involvement of delta opioid receptors in alcohol withdrawal-induced mechanical allodynia in male C57BL/6 mice

The role of regulator of G protein signaling 4 in delta-opioid receptor-mediated behaviors

The Meta-Position of Phe4 in Leu-enkephalin Regulates Potency, Selectivity, Functional Activity, and Signaling Bias at the Delta and Mu Opioid Receptors

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The Meta-Position of Phe⁴ in Leu-enkephalin Regulates Potency, Selectivity, Functional Activity, and Signaling Bias at the Delta and Mu Opioid Receptors