Mu- and delta-opioid receptors are downregulated in the largest diameter primary sensory neurons during postnatal development in rats

Beland, B; Fitzgerald, Maria

doi:10.1016/s0304-3959(00)00397-3

Cited by 76 publications

(55 citation statements)

References 32 publications

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“…Furthermore, long-term exposure to proinflammatory chemokines compromises the function of MORs on sensory neurons of dorsal root ganglia. MORs are preferentially expressed on small to medium diameter neurons (32). Our data from immunohistochemical staining clearly showed that CCR1 and -opioid receptors were coexpressed on the same neuronal cells.…”

Section: Discussionsupporting

confidence: 49%

Proinflammatory Chemokines, Such as C-C Chemokine Ligand 3, Desensitize μ-Opioid Receptors on Dorsal Root Ganglia Neurons

Zhang

Rogers

Oppenheim

2004

The Journal of Immunology

110

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Pain is one of the hallmarks of inflammation. Opioid receptors mediate antipain responses in both the peripheral nervous system and CNS. In the present study, pretreatment of CCR1:μ-opioid receptor/HEK293 cells with CCL3 (MIP-1α) induced internalization of μ-opioid receptors and severely impaired the μ-opioid receptor-mediated inhibition of cAMP accumulation. Immunohistochemical staining showed that CCR1 and μ-opioid receptors were coexpressed on small to medium diameter neurons in rat dorsal root ganglion. Analysis of ligand-induced calcium flux showed that both types of receptors were functional. Pretreatment of neurons with CCL3 exhibited an impaired [d-Ala2,N-MePhe4,Gly-o15]enkephalin-elicited calcium response, indicative of the heterologous desensitization of μ-opioid receptors. Other chemokines, such as CCL2, CCL5, and CXCL8, exhibited similar inhibitory effects. Our data indicate that proinflammatory chemokines are capable of desensitizing μ-opioid receptors on peripheral sensory neurons, providing a novel potential mechanism for peripheral inflammation-induced hyperalgesia.

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Section: Discussionsupporting

confidence: 49%

Proinflammatory Chemokines, Such as C-C Chemokine Ligand 3, Desensitize μ-Opioid Receptors on Dorsal Root Ganglia Neurons

Zhang

Rogers

Oppenheim

2004

The Journal of Immunology

110

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“…However, in mouse DRG neurons, ␦-receptors are the first to be expressed on embryonic day 12.5 (E12.5), followed by the -(E13.5) and -receptors (E17.5) (Zhu et al, 1998). In rat, a greater proportion of DRG neurons expressing -and ␦-receptors was found before postnatal day 7 (P7) than at P21 (-receptor was not examined) (Beland and Fitzgerald, 2001;Nandi et al, 2004). During the first postnatal week, both opioid receptors were detected in cells of all sizes, but by P21, expression was restricted to small-and medium-diameter cells, suggesting a selective down-regulation in nonnociceptive neurons (Beland and Fitzgerald, 2001;Nandi et al, 2004).…”

Section: Plasticity and Regulation Of Peripheral Opioid Receptorsmentioning

confidence: 99%

“…In rat, a greater proportion of DRG neurons expressing -and ␦-receptors was found before postnatal day 7 (P7) than at P21 (-receptor was not examined) (Beland and Fitzgerald, 2001;Nandi et al, 2004). During the first postnatal week, both opioid receptors were detected in cells of all sizes, but by P21, expression was restricted to small-and medium-diameter cells, suggesting a selective down-regulation in nonnociceptive neurons (Beland and Fitzgerald, 2001;Nandi et al, 2004). This notion was supported by another study examining -receptor mRNA and function (Wu et al, 2009).…”

Section: Plasticity and Regulation Of Peripheral Opioid Receptorsmentioning

confidence: 99%

Modulation of Peripheral Sensory Neurons by the Immune System: Implications for Pain Therapy

2011

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“…We have addressed these questions by focusing on the murine and ␦ opioid receptors (MOR and DOR, respectively), homologous G protein-coupled neuropeptide receptors that are natively co-expressed in several cell types (18 -20) yet differ significantly in membrane trafficking properties (21)(22)(23). Studies of cultured cells indicate that both MOR and DOR are rapidly endocytosed via clathrin-coated pits and colocalize in early endosomes within several minutes after agonist-induced activation.…”

mentioning

confidence: 99%

A Novel Endocytic Recycling Signal That Distinguishes the Membrane Trafficking of Naturally Occurring Opioid Receptors

Tanowitz

Zastrow

2003

Journal of Biological Chemistry

174

191

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␦ and opioid receptors are homologous G proteincoupled receptors that are differentially sorted between divergent degradative and recycling membrane pathways following agonist-induced endocytosis. Whereas ␦ opioid receptors are selectively sorted to lysosomes, opioid receptors recycle rapidly to the plasma membrane by a process that has been proposed to occur via bulk membrane flow. We have observed that opioid receptors do not recycle by default and have defined a specific sequence present in the cytoplasmic tail of the cloned opioid receptor that is both necessary and sufficient for rapid recycling of internalized receptors. This sequence is completely distinct from a sequence shown previously to be required for recycling of the ␤ 2 adrenergic receptor yet is functionally interchangeable when tested in chimeric mutant receptors. These results indicate that signal-dependent recycling is a more common property of G protein-coupled receptors than previously appreciated and demonstrate that such a modular recycling signal distinguishes the regulation of homologous receptors that are naturally co-expressed.

show abstract

Mu- and delta-opioid receptors are downregulated in the largest diameter primary sensory neurons during postnatal development in rats

Cited by 76 publications

References 32 publications

Proinflammatory Chemokines, Such as C-C Chemokine Ligand 3, Desensitize μ-Opioid Receptors on Dorsal Root Ganglia Neurons

Proinflammatory Chemokines, Such as C-C Chemokine Ligand 3, Desensitize μ-Opioid Receptors on Dorsal Root Ganglia Neurons

Modulation of Peripheral Sensory Neurons by the Immune System: Implications for Pain Therapy

A Novel Endocytic Recycling Signal That Distinguishes the Membrane Trafficking of Naturally Occurring Opioid Receptors

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