骨关节炎软骨钙化的新型体外人体模型。

IF 4.7 2区医学 Q1 RHEUMATOLOGY

Rheumatology Pub Date : 2025-02-01 DOI:10.1093/rheumatology/keae064

Elodie Faure, Julien Wegrzyn, Ilaria Bernabei, Guillaume Falgayrac, Nicolas Bertheaume, Tristan Pascart, Thomas Hugle, Nathalie Busso, Sonia Nasi

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引用次数: 0

摘要

目的：软骨病理性钙化是骨关节炎（OA）的标志。在此，我们旨在描述一种新的体外人体模型，以研究软骨钙化的进展：方法：从接受膝关节置换术的 OA 患者身上获取软骨外植体（11 个）和原始软骨细胞（3 个）。外植体和软骨细胞在对照（NT）或钙化（CM）培养基（添加抗坏血酸和β-甘油磷酸酯）中培养。在第 0 天和第 21 天，通过显微 CT 扫描评估外植体的钙化情况，并通过茜素红染色评估软骨细胞单层的钙化情况。拉曼光谱法可确定晶体类型。外植体和细胞上清液中的白细胞介素-6（IL-6）分泌量是通过酶联免疫吸附法测定的。最后，通过外植体切片的 Safranin-O 染色和上清液中的糖胺聚糖（GAG）释放来评估基质降解情况：结果：显微 CT 扫描显示，所有外植体在基线期（第 0 天）都有钙化，与 NT 组相比，CM 组的钙化数量和大小在 21 天后显著增加。拉曼光谱显示，NT 组和 CM 组的晶体均为碱性磷酸钙晶体（碳化羟磷灰石）。在钙化条件下，IL-6分泌明显增加。最后，组织外植体的 Safranin-O 染色减少和上清液中的 GAG 释放增加表明，CM 明显增加了软骨的分解代谢。CM的效应（钙化、IL-6分泌和蛋白多糖翻转增强）在体外OA软骨细胞中得到了再现：我们描述了一种新的软骨钙化体外人体模型，该模型可总结骨关节炎发展过程中的三重事件，即钙化、炎症和软骨降解。该模型将有助于鉴定新的抗钙化化合物。

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A new ex vivo human model of osteoarthritis cartilage calcification.

Objective: Cartilage pathologic calcification is a hallmark of osteoarthritis (OA). Here, we aimed to describe a new ex vivo human model to study the progression of cartilage calcification.

Method: Cartilage explants (n = 11), as well as primary chondrocytes (n = 3), were obtained from OA patients undergoing knee replacement. Explants and chondrocytes were cultured in control (NT) or calcification (CM) medium (supplemented with ascorbic acid and β-glycerophosphate). Calcification was evaluated by micro-CT scan at day 0 and 21 in explants, and by Alizarin red staining in chondrocyte monolayers. Raman spectrometry allowed characterization of the crystal type. Interleukin-6 (IL-6) secretion in explant and cell supernatants was measured by ELISA. Finally, matrix degradation was evaluated by Safranin-O staining of explant sections and by glycosaminoglycans (GAG) released in supernatants.

Results: Micro-CT scan showed calcifications in all explants at baseline (day 0), which in the CM group increased significantly in number and size after 21 days compared with the NT group. Raman spectrometry revealed that crystals were exclusively basic calcium phosphate crystals (carbonated hydroxyapatite) both in NT and CM. IL-6 secretion was significantly increased in calcifying conditions. Finally, CM significantly increased cartilage catabolism as assessed by decreased Safranin-O staining of tissue explants and increased GAG release in supernatants. CM effects (enhanced calcification, IL-6 secretion and proteoglycans turn-over) were recapitulated in vitro in OA chondrocytes.

Conclusions: We have described a new ex vivo human model of cartilage calcification that can summarize the triad of events seen during osteoarthritis progression, i.e. calcification, inflammation and cartilage degradation. This model will allow the identification of new anti-calcification compounds.

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来源期刊

Rheumatology 医学-风湿病学

CiteScore

9.40

自引率

7.30%

发文量

1091

审稿时长

2 months

期刊介绍： Rheumatology strives to support research and discovery by publishing the highest quality original scientific papers with a focus on basic, clinical and translational research. The journal’s subject areas cover a wide range of paediatric and adult rheumatological conditions from an international perspective. It is an official journal of the British Society for Rheumatology, published by Oxford University Press. Rheumatology publishes original articles, reviews, editorials, guidelines, concise reports, meta-analyses, original case reports, clinical vignettes, letters and matters arising from published material. The journal takes pride in serving the global rheumatology community, with a focus on high societal impact in the form of podcasts, videos and extended social media presence, and utilizing metrics such as Altmetric. Keep up to date by following the journal on Twitter @RheumJnl.