Distinct and sex-specific expression of mu opioid receptors in anterior cingulate and somatosensory S1 cortical areas

Distinct and sex-specific expression of mu opioid receptors in anterior cingulate and somatosensory S1 cortical areas

The anterior cingulate cortex (ACC) processes the affective component of pain, whereas the primary somatosensory cortex (S1) is involved in its sensory-discriminative component. Injection of morphine in the ACC has been reported to be analgesic, and endogenous opioids in this area are required for p...

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Veröffentlicht in:Pain (Amsterdam) 2023-04, Vol.164 (4), p.703-716
Hauptverfasser: Zamfir, Maria, Sharif, Behrang, Locke, Samantha, Ehrlich, Aliza T., Ochandarena, Nicole E., Scherrer, Grégory, Ribeiro-da-Silva, Alfredo, Kieffer, Brigitte L., Séguéla, Philippe
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Sprache:eng
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Analgesics, Opioid - metabolism
Analgesics, Opioid - pharmacology
Animals
Female
Gyrus Cinguli - metabolism
Male
Mice
Morphine
Neurons - metabolism
Pain - metabolism
Receptors, Opioid, mu - metabolism
Research Paper
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container_issue 4
container_start_page 703
container_title Pain (Amsterdam)
container_volume 164
creator Zamfir, Maria
Sharif, Behrang
Locke, Samantha
Ehrlich, Aliza T.
Ochandarena, Nicole E.
Scherrer, Grégory
Ribeiro-da-Silva, Alfredo
Kieffer, Brigitte L.
Séguéla, Philippe
description The anterior cingulate cortex (ACC) processes the affective component of pain, whereas the primary somatosensory cortex (S1) is involved in its sensory-discriminative component. Injection of morphine in the ACC has been reported to be analgesic, and endogenous opioids in this area are required for pain relief. Mu opioid receptors (MORs) are expressed in both ACC and S1; however, the identity of MOR-expressing cortical neurons remains unknown. Using the Oprm1-mCherry mouse line, we performed selective patch clamp recordings of MOR+ neurons, as well as immunohistochemistry with validated neuronal markers, to determine the identity and laminar distribution of MOR+ neurons in ACC and S1. We found that the electrophysiological signatures of MOR+ neurons differ significantly between these 2 areas, with interneuron-like firing patterns more frequent in ACC. While MOR+ somatostatin interneurons are more prominent in ACC, MOR+ excitatory neurons and MOR+ parvalbumin interneurons are more prominent in S1. Our results suggest a differential contribution of MOR-mediated modulation to ACC and S1 outputs. We also found that females had a greater density of MOR+ neurons compared with males in both areas. In summary, we conclude that MOR-dependent opioidergic signaling in the cortex displays sexual dimorphisms and likely evolved to meet the distinct function of pain-processing circuits in limbic and sensory cortical areas.
doi_str_mv 10.1097/j.pain.0000000000002751
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subjects Analgesics, Opioid - metabolism
Analgesics, Opioid - pharmacology
Animals
Female
Gyrus Cinguli - metabolism
Male
Mice
Morphine
Neurons - metabolism
Pain - metabolism
Receptors, Opioid, mu - metabolism
Research Paper
title Distinct and sex-specific expression of mu opioid receptors in anterior cingulate and somatosensory S1 cortical areas
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