Simona Patierno scite author profile

Mu-, delta- and kappa-opioid receptors (ORs) mediate the effects of endogenous opioids and opiate drugs. Here we report (1) the distribution of muOR in the guinea-pig and human gastrointestinal tract in relation to endogenous ligands, to functionally distinct structures in the gut and to deltaOR and kappaOR; and (2) the ligand-induced muOR endocytosis in enteric neurones using in vitro and in vivo models. In the guinea pig, muOR immunoreactivity is confined mainly to the myenteric plexus. MuOR myenteric neurones are most numerous in the small intestine, followed by the stomach and the proximal colon. MuOR immunoreactive fibres are dense in the muscle layer and the deep muscular plexus, where they are in close association with interstitial cells of Cajal. This distribution closely matches the pattern of enkephalin. MuOR enteric neurones comprise functionally distinct populations of neurones of the ascending and descending pathways of the peristaltic reflex. In human gut, muOR immunoreactivity is localized to myenteric and submucosal neurones and to immune cells of the lamina propria. DeltaOR immunoreactivity is located in both plexuses where it is predominantly in varicose fibres in the plexuses, muscle and mucosa, whereas kappaOR immunoreactivity appears to be confined to the myenteric plexus and to bundles of fibres in the muscle. MuOR undergoes endocytosis in a concentration-dependent manner, in vitro and in vivo. Pronounced muOR endocytosis is observed in neurones from animals that underwent abdominal surgery that has been shown to induce delay in gastrointestinal transit. We can conclude that all three ORs are localized to the enteric nervous system with differences among species, and that muOR endocytosis can be utilized as a means to visualize enteric neurones activated by opioids and sites of opioid release.

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Ligand-induced μ opioid receptor endocytosis and recycling in enteric neurons

Minnis

Patierno

Kohlmeier

et al. 2003

Neuroscience

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Dynamin and Rab5a-dependent Trafficking and Signaling of the Neurokinin 1 Receptor

Schmidlin¹,

Déry²,

DeFea³

et al. 2001

Journal of Biological Chemistry

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Understanding the molecular mechanisms of agonistinduced trafficking of G-protein-coupled receptors is important because of the essential role of trafficking in signal transduction. We examined the role of the GTPases dynamin 1 and Rab5a in substance P (SP)-induced trafficking and signaling of the neurokinin 1 receptor (NK1R), an important mediator of pain, depression, and inflammation, by studying transfected cells and enteric neurons that naturally express the NK1R. In unstimulated cells, the NK1R colocalized with dynamin at the plasma membrane, and Rab5a was detected in endosomes. SP induced translocation of the receptor into endosomes containing Rab5a immediately beneath the plasma membrane and then in a perinuclear location. Expression of the dominant negative mutants dynamin 1 K44E and Rab5aS34N inhibited endocytosis of SP by 45 and 32%, respectively. Dynamin K44E caused membrane retention of the NK1R, whereas Rab5aS34N also impeded the translocation of the receptor from superficially located to perinuclear endosomes. Both dynamin K44E and Rab5aS34N strongly inhibited resensitization of SP-induced Ca 2؉ mobilization by 60 and 85%, respectively, but had no effect on NK1R desensitization. Dynamin K44E but not Rab5aS34N markedly reduced SPinduced phosphorylation of extracellular signal regulated kinases 1 and 2. Thus, dynamin mediates the formation of endosomes containing the NK1R, and Rab5a mediates both endosomal formation and their translocation from a superficial to a perinuclear location. Dynamin and Rab5a-dependent trafficking is essential for NK1R resensitization but is not necessary for desensitization of signaling. Dynamin-dependent but not Rab5a-dependent trafficking is required for coupling of the NK1R to the mitogen-activated protein kinase cascade. These processes may regulate the nociceptive, depressive, and proinflammatory effects of SP.

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Simona Patierno

The opioid system in the gastrointestinal tract

Ligand-induced μ opioid receptor endocytosis and recycling in enteric neurons

Dynamin and Rab5a-dependent Trafficking and Signaling of the Neurokinin 1 Receptor

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