• J Pain · Jun 2022

    Microvascular barrier protection by microRNA-183 via FoxO1 repression: A pathway disturbed in neuropathy and complex regional pain syndrome.

    • Ann-Kristin Reinhold, Ellaine Salvador, Carola Y Förster, Frank Birklein, and Heike L Rittner.
    • University Hospital Würzburg, Department of Anesthesiology, Intensive Care, Emergency Care and Pain Management, Center for Interdisciplinary Pain Medicine, Würzburg, Germany.
    • J Pain. 2022 Jun 1; 23 (6): 967-980.

    AbstractBlood nerve barrier disruption and edema are common in neuropathic pain as well as in complex regional pain syndrome (CRPS). MicroRNAs (miRNA) are epigenetic multitarget switches controlling neuronal and non-neuronal cells in pain. The miR-183 complex attenuates hyperexcitability in nociceptors, but additional non-neuronal effects via transcription factors could contribute as well. This study explored exosomal miR-183 in CRPS and murine neuropathy, its effect on the microvascular barrier via transcription factor FoxO1 and tight junction protein claudin-5, and its antihyperalgesic potential. Sciatic miR-183 decreased after CCI. Substitution with perineural miR-183 mimic attenuated mechanical hypersensitivity and restored blood nerve barrier function. In vitro, serum from CCI mice und CRPS patients weakened the microvascular barrier of murine cerebellar endothelial cells, increased active FoxO1 and reduced claudin-5, concomitant with a lack of exosomal miR-183 in CRPS patients. Cellular stress also compromised the microvascular barrier which was rescued either by miR-183 mimic via FoxO1 repression or by prior silencing of Foxo1. PERSPECTIVE: Low miR-183 leading to barrier impairment via FoxO1 and subsequent claudin-5 suppression is a new aspect in the pathophysiology of CRPS and neuropathic pain. This pathway might help untangle the wide symptomatic range of CRPS and nurture further research into miRNA mimics or FoxO1 inhibitors.Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.

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