2013
DOI: 10.1002/jnr.23214
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Ligand‐induced μ opioid receptor internalization in enteric neurons following chronic treatment with the opiate fentanyl

Abstract: Morphine differs from most opiates for its poor ability to internalize μ opioid receptors (μORs). However, chronic treatment with morphine produces adaptational changes at the dynamin level, which enhance the efficiency of acute morphine stimulation to promote μOR internalization in enteric neurons. This study tested the effect of chronic treatment with fentanyl, a μOR internalizing agonist, on ligand-induced endocytosis and the expression of the intracellular trafficking proteins, dynamin and ß arrestin, in e… Show more

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Cited by 11 publications
(11 citation statements)
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“…DAMGO, a selective MOR agonist with high internalizing efficiency, retains its ability to induce MOR internalization in neurons chronically stimulated with either morphine or fentanyl. This result indicates that chronic activation of MOR does not impair receptor trafficking in enteric neurons (Patierno et al , 2011; Anselmi et al , 2013). Different ligands might also affect the recycling pathways as suggested by the report that internalized MORs remain in the cytoplasm for at least 2 hours following stimulation with loperamide while DAMGO- and morphiceptin- (MOR agonist) activated receptors recycle back to the membrane within 2 hours (Lay et al , 2016).…”
Section: Opioid Receptor Trafficking Signaling Cascades and Tolerancmentioning
confidence: 76%
See 1 more Smart Citation
“…DAMGO, a selective MOR agonist with high internalizing efficiency, retains its ability to induce MOR internalization in neurons chronically stimulated with either morphine or fentanyl. This result indicates that chronic activation of MOR does not impair receptor trafficking in enteric neurons (Patierno et al , 2011; Anselmi et al , 2013). Different ligands might also affect the recycling pathways as suggested by the report that internalized MORs remain in the cytoplasm for at least 2 hours following stimulation with loperamide while DAMGO- and morphiceptin- (MOR agonist) activated receptors recycle back to the membrane within 2 hours (Lay et al , 2016).…”
Section: Opioid Receptor Trafficking Signaling Cascades and Tolerancmentioning
confidence: 76%
“…This response is prevented by treatment with a dynamin inhibitor or neuronal transfection with a mutant dynamin, in the absence of a change in ß-arrestin levels (Duraffourd et al , 2014). By contrast, in enteric neurons chronically exposed to fentanyl, morphine-activated MORs do not internalize and dynamin localization and levels are unchanged (Anselmi et al , 2013). DAMGO, a selective MOR agonist with high internalizing efficiency, retains its ability to induce MOR internalization in neurons chronically stimulated with either morphine or fentanyl.…”
Section: Opioid Receptor Trafficking Signaling Cascades and Tolerancmentioning
confidence: 99%
“…Opioids can activate three classes of opioid receptors (μORs, δORs, and κORs) to modulate a variety of biological processes (Anselmi et al, 2013). Many opiates serve as important drugs for pain-control.…”
Section: Discussionmentioning
confidence: 99%
“…U50,488 and dynorphin A (1-17), but neither etorphine nor levorphanol, promote a time-, and concentration-dependent internalization of hKOR (Li et al, 2003 ). In several reports, morphine was described as a poor internalizing agonist of MOR in HEK cells (Keith et al, 1998 ; Whistler and Von Zastrow, 1998 ; Schulz et al, 2004 ; Just et al, 2013 ) but also in enteric neurons (Anselmi et al, 2013 ) and in brain slice from transgenic mice expressing a FLAG-tagged MOR (Arttamangkul et al, 2008 ). In few publications, MOR was shown to internalize upon morphine exposure.…”
Section: Desensitizationmentioning
confidence: 99%