Pain in Fibrous Dysplasia: Identifying Nociceptive Mechanisms in a Preclinical Model.

IF 5.1 1区医学 Q1 ENDOCRINOLOGY & METABOLISM

Journal of Bone and Mineral Research Pub Date : 2025-05-14 DOI:10.1093/jbmr/zjaf039

Chelsea Hopkins, Luis Fernandez de Castro, Julie Benthin, Marta Diaz-delCastillo, Pravallika Manjappa, Alison Boyce, Ruth Elena Martinez Mendoza, Juan Antonio Vazquez Mora, Giovanni Emmanuel Lopez-Delgado, Lizeth Yazmin Ponce Gomez, Khaled Elhady Mohamed, John E Linley, Michael T Collins, Juan Miguel Jimenez-Andrade, Anne-Marie Heegaard

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Abstract

Pain is a common symptom of fibrous dysplasia (FD), a rare mosaic disorder characterized by fibro-osseous lesions in the bone. Despite the prevalence of pain in FD patients, there is little knowledge about the nociceptive mechanisms and few efficacious treatments. As such, understanding FD pain is essential for patient care. The overall aim of this study was to identify nocifensive behaviors and potential underlying mechanisms in a transgenic mouse model of FD, previously shown to display high face and translational validity. Significant nocifensive behaviors were observed in FD mice (male and female), compared to control mice in the burrowing, grid hanging, home cage activity, and wheel running assays. These changes corresponded to lesion development, as visualized by X-ray imaging. Behavioral deficits improved when analgesics were administered, indicating a nociceptive origin. Tibias and femurs from FD mice demonstrated characteristic FD lesions and the presence of mono- and multi-nucleated CD68+ cells, calcitonin gene-related peptide (CGRP+) sensory nerve fibers, and vascularization. Lumbar dorsal root ganglia (DRGs) from male FD mice displayed increased staining for activating transcription factor-3 (ATF3) and tyrosine hydroxylase (TH+) neurons. No difference was observed in the spinal cords between the FD and control groups for glial cell presence and neuropeptide expression. Bone marrow stromal cells were obtained from FD and control mice and cultured in vitro. FD cells developed an increased concentration of inflammatory cytokines (interleukin-6, tumor necrosis factor-alpha), chemokines (monocyte chemoattractant protein, keratinocyte chemoattractant/human growth-regulated oncogene), and nerve growth factor as compared to controls. Taken together, this study demonstrated for the first time that nociceptive mechanisms such as axonal growth in FD lesions, nerve injury, and inflammation may contribute to FD pain, and it provides a foundation for conducting further studies of pain- and disease-modifying therapeutics for FD patients.

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纤维结构不良中的疼痛：在临床前模型中识别伤害感受机制。

疼痛是纤维发育不良（FD）的常见症状，FD是一种罕见的马赛克疾病，其特征是骨骼中的纤维骨性病变。尽管FD患者普遍存在疼痛，但对其伤害机制和有效的治疗方法知之甚少。因此，了解FD疼痛对患者护理至关重要。本研究的总体目的是确定FD转基因小鼠模型中的恶意行为和潜在的潜在机制，该模型先前显示出高面部和翻译效度。与对照组小鼠相比，FD小鼠（雄性和雌性）在挖洞、网格悬挂、家笼活动和轮跑实验中观察到显著的有害行为。这些变化与x射线成像显示的病变发展相一致。当使用镇痛剂时，行为缺陷得到改善，这表明了伤害性的起源。FD小鼠的胫骨和股骨表现出特征性FD病变，存在单核和多核CD68+细胞、降钙素基因相关肽（CGRP+）感觉神经纤维和血管化。雄性FD小鼠腰背根神经节（DRGs）活化转录因子-3 （ATF3）和酪氨酸羟化酶（TH+）神经元染色增加。在脊髓中，FD组和对照组之间的胶质细胞存在和神经肽表达没有差异。分别从FD小鼠和对照小鼠身上获得骨髓基质细胞并进行体外培养。与对照组相比，FD细胞的炎症因子（白细胞介素-6、肿瘤坏死因子- α）、趋化因子（单核细胞趋化蛋白、角化细胞趋化因子/人类生长调节癌基因）和神经生长因子的浓度增加。综上所述，本研究首次证明了FD病变轴突生长、神经损伤、炎症等伤害性机制可能与FD疼痛有关，为FD患者疼痛和疾病缓解治疗的进一步研究奠定了基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Bone and Mineral Research 医学-内分泌学与代谢

CiteScore

11.30

自引率

6.50%

发文量

257

审稿时长

2 months

期刊介绍： The Journal of Bone and Mineral Research (JBMR) publishes highly impactful original manuscripts, reviews, and special articles on basic, translational and clinical investigations relevant to the musculoskeletal system and mineral metabolism. Specifically, the journal is interested in original research on the biology and physiology of skeletal tissues, interdisciplinary research spanning the musculoskeletal and other systems, including but not limited to immunology, hematology, energy metabolism, cancer biology, and neurology, and systems biology topics using large scale “-omics” approaches. The journal welcomes clinical research on the pathophysiology, treatment and prevention of osteoporosis and fractures, as well as sarcopenia, disorders of bone and mineral metabolism, and rare or genetically determined bone diseases.