Fentanyl inhibits glucose-stimulated insulin release from β-cells in rat pancreatic islets

Qian, Tao-Lai; Wang, Xinhua; Liu, Sheng; Ma, Liang; Lü, Ying

doi:10.3748/wjg.15.4163

Cited by 9 publications

(10 citation statements)

References 38 publications

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“…Green et al 24 first showed that morphine and met-enkephalin were able to stimulate glucose-induced insulin release in isolated pancreatic isles, an effect that was observed to develop rapidly, representing the first phase of pancreatic insulin release and which could be blocked by naloxone pre-treatment and therefore, showing an opioid-receptor mediated effect. A number of studies that followed confirmed the results of Green et al either directly [26][27][28] 24, 26, 27; 28, 29, 32, 33 , while others have shown the opposite inhibitory effect [34][35][36][37][38][39] .…”

Section: Introductionmentioning

confidence: 74%

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Opioid receptor-dependent modulation of insulin-release in pancreatic beta-cells

Paul¹,

Guven²,

Dietis

2014

PBJ

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In this study we aimed to look at the effects of opioid-receptor selective agonists and antagonists on insulin secretion in the pancreatic β-cell line RIN-5F. Cells were treated for 24 hours with 1μM of selective agonists (DAMGO for MOP, DPDPE for DOP, U50488 for KOP) in the presence or absence of 10μM of selective antagonists (CTOP for MOP, naltrindole for DOP, norBNI for KOP).An enzyme-based immunoassay was used to detect the amount of insulin in the supernatant, using a standard curve generated from known concentrations of rat insulin. A trypan blue viability assay was performed to assess the toxicity of each treatment and the secreted insulin was expressed as per 10 3 viable cells. Treatment with DAMGO or DPDPE caused an increase in secreted insulin by 94.2% and 76.3% respectively, compared to the non-treated controls. Cotreatment of DAMGO and CTOP was able to cancel out the agonists' effect. However, CTOP itself was able to increase insulin secretion by 72% when compared to control. These results suggest that opioid-induced insulin secretion may be based on G-protein independent mechanisms. In addition, none of the KOP-receptor selective ligands tested here were able to significantly affect insulin secretion compared to control, whereas naltrindole was highly toxic to pancreatic β-cells since it induced maximum cell death. Collectively, these findings suggest that MOP and DOP receptor-binding opioids might be more relevant in increasing insulin secretion from pancreatic β-cells than KOP receptor ligands.

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Section: Introductionmentioning

confidence: 74%

“…Similarly to Qian et al 38 who used an MTT viability assay to assess whether opioid effect cellular toxicity of the opioid concentrations used, we used the TB viability assay to account for the potentially different effects of the different opioids used.…”

Section: Discussionmentioning

confidence: 99%

Opioid receptor-dependent modulation of insulin-release in pancreatic beta-cells

Paul¹,

Guven²,

Dietis

2014

PBJ

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“…The increasing use of opioids for both cancer and noncancer pain has raised concerns regarding the potential long‐term safety of opioid exposure on cardiovascular risk. Both animal and human studies have demonstrated that opioid administration leads to hyperglycaemia by multiple mechanisms . Indeed, opioid receptors have been identified on pancreatic islets and laboratory studies have shown that opiates inhibit glucose‐stimulated insulin release from the beta cells .…”

Section: Discussionmentioning

confidence: 99%

“…Both animal and human studies have demonstrated that opioid administration leads to hyperglycaemia by multiple mechanisms. 17,[26][27][28] Indeed, opioid receptors have been identified on pancreatic islets and laboratory studies have shown that opiates inhibit glucose-stimulated insulin release from the beta cells. 26 Damage to the beta cells and desensitization of insulin receptor signalling by opiates have been posited as potential mechanisms.…”

Section: Discussionmentioning

confidence: 99%

“…17,[26][27][28] Indeed, opioid receptors have been identified on pancreatic islets and laboratory studies have shown that opiates inhibit glucose-stimulated insulin release from the beta cells. 26 Damage to the beta cells and desensitization of insulin receptor signalling by opiates have been posited as potential mechanisms. 26,29 In addition to their effects in causing metabolic dysregulation, recent studies in men have also implicated opioid use as a risk factor for coronary artery disease.…”

Section: Discussionmentioning

confidence: 99%

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