RNA sequencing uncovers key players of cartilage calcification: potential implications for osteoarthritis pathogenesis.

IF 4.7 2区 医学 Q1 RHEUMATOLOGY
Ilaria Bernabei, Elodie Faure, Julien Wegrzyn, Nicolas Bertheaume, Guillaume Falgayrac, Thomas Hugle, Sonia Nasi, Nathalie Busso
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引用次数: 0

Abstract

Objective: Osteoarthritis (OA) is a joint disease linked with pathologic cartilage calcification, caused by the deposition of calcium-containing crystals by chondrocytes. Despite its clinical significance, the precise mechanisms driving calcification remain elusive. This study aimed to identify crucial players in cartilage calcification, offering insights for future targeted interventions against OA.

Methods: Primary murine chondrocytes were stimulated with secondary calciprotein particles (CPP2) or left untreated (NT) for 6 h. Calcification was assessed by alizarin red staining. RNA was analyzed by Bulk RNA sequencing. Differentially expressed (DE) genes were identified (cutoff: abs(LogFC)>1 and adj.p-val < 0.05), and top 50 DE genes were cross-referenced with human OA datasets from previous studies (ie healthy vs OA cartilage, or undamaged vs damaged cartilage). RNA from NT and CPP2-stimulated primary human OA chondrocytes were used to validate genes by qPCR.

Results: CPP2 induced crystal formation by chondrocytes and significantly modulated 1466 genes. Out of the top 50 DE genes in CPP2, 27 were confirmed in published OA cartilage datasets. Of those genes, some are described in calcification and/or OA (Errfi1, Ngf, Inhba, Col9a1). Two additional ones (Rcan1, Tnfrsf12a) appear novel and interesting in the context of calcification and OA. We validated modulation of these six genes in calcifying human chondrocytes from 5 patients. Ultimately, we unveiled two distinct gene families modulated by CPP2: the first comprised cytoskeletal genes (Actb, Tpm1, Cfl1, Tagln2, Lmna), while the second encompassed extracellular matrix genes (Fmod, Sparc, Col9a1, Cnmd).

Conclusion: CPP2 modulates genes in chondrocytes that could represent new targets for therapeutic interventions in OA.

RNA 测序发现软骨钙化的关键参与者:对骨关节炎发病机制的潜在影响。
目的:骨关节炎(OA)是一种与软骨病理性钙化有关的关节疾病,由软骨细胞沉积的含钙晶体引起。尽管钙化具有重要的临床意义,但驱动钙化的确切机制仍然难以捉摸。本研究旨在确定软骨钙化的关键因素,为未来针对 OA 的干预措施提供启示:方法:用二级钙蛋白颗粒(CPP2)或未经处理(NT)的原代小鼠软骨细胞刺激6小时。通过大量 RNA 测序分析 RNA。确定了差异表达基因(DE)(截止值:abs(LogFC)>1 和 adj.p-val 结果:CPP2 可诱导软骨细胞形成晶体,并显著调控 1466 个基因。在 CPP2 的前 50 个 DE 基因中,有 27 个在已发表的 OA 软骨数据集中得到证实。在这些基因中,一些(Errfi1、Ngf、Inhba、Col9a1)在钙化和/或 OA 中被描述。另外两个基因(Rcan1、Tnfrsf12a)在钙化和 OA 的背景下显得新颖而有趣。我们在 5 名患者的钙化人类软骨细胞中验证了这 6 个基因的调节作用。最终,我们发现了两个受 CPP2 调节的不同基因家族:第一个家族包括细胞骨架基因(Actb、Tpm1、Cfl1、Tagln2、Lmna),第二个家族包括细胞外基质基因(Fmod、Sparc、Col9a1、Cnmd):结论:CPP2能调节软骨细胞中的基因,这些基因可能是治疗OA的新靶点。
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
Rheumatology
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.
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