2026-04-17T15:57:49Zhttps://recercat.cat/oai/request

oai:recercat.cat:10230/489472025-12-24T08:39:42Zcom_2072_6col_2072_452952

00925njm 22002777a 4500 dc Reiss, David author Maurin, Hervé author Audouard, Emilie author Martínez Navarro, Miriam, 1990- author Xue, Yaping author Herault, Yann author Maldonado, Rafael, 1961- author Cabañero Ferri, David author Gaveriaux-Ruff, Claire author 2021-11-11T07:12:30Z 2021-11-11T07:12:30Z 2021 Background: The delta opioid receptor (DOR) contributes to pain control, and a major challenge is the identification of DOR populations that control pain, analgesia, and tolerance. Astrocytes are known as important cells in the pathophysiology of chronic pain, and many studies report an increased prevalence of pain in women. However, the implication of astrocytic DOR in neuropathic pain and analgesia, as well as the influence of sex in this receptor activity, remains unknown. Experimental Approach: We developed a novel conditional knockout (cKO) mouse line wherein DOR is deleted in astrocytes (named GFAP-DOR-KO), and investigated neuropathic mechanical allodynia as well as analgesia and analgesic tolerance in mutant male and female mice. Neuropathic cold allodynia was also characterized in mice of both sexes lacking DOR either in astrocytes or constitutively. Results: Neuropathic mechanical allodynia was similar in GFAP-DOR-KO and floxed DOR control mice, and the DOR agonist SNC80 produced analgesia in mutant mice of both sexes. Interestingly, analgesic tolerance developed in cKO males and was abolished in cKO females. Cold neuropathic allodynia was reduced in mice with decreased DOR in astrocytes. By contrast, cold allodynia was exacerbated in full DOR KO females. Conclusions: These findings show that astrocytic DOR has a prominent role in promoting cold allodynia and analgesic tolerance in females, while overall DOR activity was protective. Altogether this suggests that endogenous- and exogenous-mediated DOR activity in astrocytes worsens neuropathic allodynia while DOR activity in other cells attenuates this form of pain. In conclusion, our results show a sex-specific implication of astrocytic DOR in neuropathic pain and analgesic tolerance. These findings open new avenues for developing tailored DOR-mediated analgesic strategies. This work has been funded by the European Commission Seventh Framework programmes FP7-Health-2013-Innovation under grant agreement 1602919 (CG-R), FP7-Health-2013-Innovation under grant agreement F2-602891 (RM, MM-N, DC, CG-R); by Frame program Investissements d’Avenir ANR-10-IDEX-0002-02 and ANR-10-LABX-0030-INRT (YH, CG-R). The work was supported by Université de Strasbourg (CG-R) and CNRS (YH). Analgesia Astrocyte Cold allodynia Delta opioid receptor Pain Tolerance Delta opioid receptor in astrocytes contributes to neuropathic cold pain and analgesic tolerance in female mice