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细胞因子信号转导抑制因子(SOCS)在骨关节炎中减少。

Suppressors of cytokine signalling (SOCS) are reduced in osteoarthritis.

机构信息

Bone and Joint Research Group, University of Southampton Medical School, Southampton, UK.

出版信息

Biochem Biophys Res Commun. 2011 Apr 1;407(1):54-9. doi: 10.1016/j.bbrc.2011.02.101. Epub 2011 Feb 23.

DOI:10.1016/j.bbrc.2011.02.101
PMID:21352802
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3937865/
Abstract

OBJECTIVES

Suppressor of cytokine signalling (SOCS) proteins are inhibitors of cytokine signalling that function via the JAK/STAT pathway (Janus kinase/signal transducers and activators of transcription). Eight SOCS proteins, SOCS1-SOCS7 and CIS-1 (cytokine-inducible SH2-domain, with similar structure to the other SOCS proteins) have been identified, of which SOCS1, 2, and 3 and CIS-1 are the best characterised. A characteristic feature of osteoarthritis (OA) is increased production by articular chondrocytes of pro-inflammatory cytokines, such as interleukin-1 beta (IL-1β) and tumor necrosis factor alpha (TNFα), which may be induced by mechanotransduction and contribute to cartilage destruction. In this study, we have compared the gene expression of SOCS1, 2, 3 and CIS-1 in healthy and OA human chondrocytes, and also analyzed the effects of IL-1β and TNFα on the levels of mRNA encoding these SOCS family members. In addition, SOCS2 protein production was assessed and the CpG methylation status of the SOCS2 promoter was analyzed to determine the role of epigenetics in its regulation.

METHODS

Femoral heads were obtained after joint replacement surgery for late stage OA and hemiarthroplasty following a fracture of the neck of femur (#NOF). Chondrocytes from the superficial layer of OA cartilage and the deep zone of #NOF cartilage were isolated by sequential treatment with trypsin, hyaluronidase and collagenase B. Total DNA and RNA were extracted from the same chondrocytes, and the levels of SOCS1, 2, 3 and CIS-1 mRNA were determined by qRT-PCR. The percentage of methylation in the CpG sites of the SOCS2 proximal promoter was quantified by pyrosequencing. Alternatively, healthy chondrocytes were isolated from #NOF cartilage and cultured with and without a mixture of IL-1β and oncostatin M (OSM, both 2.5ng/ml) or TNFα (10ng/ml). The short-term cultures with single cytokine treatment were harvested 24 and 72h after treatment, and the long-term cultures were maintained for 4-5 weeks until confluent with periodical cytokine stimulation. Total RNA was extracted and mRNA levels were determined by qRT-PCR.

RESULTS

The SOCS2 and CIS-1 mRNA levels were reduced by approximately 10-fold in OA samples compared to control samples, while SOCS1 and SOCS3 showed similar expression patterns in OA and control chondrocytes. The SOCS2 and CIS-1 mRNA levels declined by 6-fold and 3-fold with long-term treatment with IL-1β and OSM in combination and TNFα, respectively. There was no significant difference in the CpG methylation status of the SOCS2 promoter between healthy and OA chondrocytes. Similarly, cytokine stimulation did not change the CpG methylation status of the SOCS2 promoter.

CONCLUSIONS

This study demonstrates the reduced expression of SOCS2 and CIS-1 in OA, while SOCS1 and SOCS3 were unaffected. The observation that long-term treatment with inflammatory cytokines attenuated the expression of SOCS2 and CIS-1 suggests a potential positive feedback mechanism, and a role of SOCS in the pathology of OA.

摘要

目的

抑制细胞因子信号的 SOCS 蛋白是通过 JAK/STAT 途径(Janus 激酶/信号转导和转录激活物)起作用的细胞因子信号抑制剂。已经鉴定出了 8 种 SOCS 蛋白,SOCS1-SOCS7 和 CIS-1(细胞因子诱导的 SH2 结构域,与其他 SOCS 蛋白具有相似的结构),其中 SOCS1、2 和 3 以及 CIS-1 是特征最明显的。骨关节炎(OA)的一个特征是关节软骨细胞产生促炎细胞因子(如白细胞介素-1β(IL-1β)和肿瘤坏死因子α(TNFα))增加,这些细胞因子可能由机械转导诱导,并导致软骨破坏。在这项研究中,我们比较了健康和 OA 人软骨细胞中 SOCS1、2、3 和 CIS-1 的基因表达,并分析了 IL-1β 和 TNFα 对这些 SOCS 家族成员编码的 mRNA 水平的影响。此外,还评估了 SOCS2 蛋白的产生,并分析了 SOCS2 启动子的 CpG 甲基化状态,以确定表观遗传学在其调控中的作用。

方法

在晚期 OA 关节置换手术后和股骨颈骨折后的半髋关节置换手术后,从股骨头中获得。通过连续用胰蛋白酶、透明质酸酶和胶原酶 B 处理,从 OA 软骨的浅层和股骨颈骨折软骨的深层分离软骨细胞。从同一软骨细胞中提取总 DNA 和 RNA,并通过 qRT-PCR 测定 SOCS1、2、3 和 CIS-1 mRNA 的水平。通过焦磷酸测序定量 SOCS2 近端启动子 CpG 位点的甲基化百分比。或者,从股骨颈骨折软骨中分离健康软骨细胞,并在存在或不存在白细胞介素-1β和 Oncostatin M(OSM,均为 2.5ng/ml)或 TNFα(10ng/ml)的混合物的情况下进行培养。用单一细胞因子处理的短期培养物在处理后 24 和 72 小时收获,并用周期性细胞因子刺激维持长期培养物(4-5 周),直到细胞融合。提取总 RNA,并通过 qRT-PCR 测定 mRNA 水平。

结果

与对照样本相比,OA 样本中的 SOCS2 和 CIS-1 mRNA 水平降低了约 10 倍,而 SOCS1 和 SOCS3 在 OA 和对照软骨细胞中的表达模式相似。SOCS2 和 CIS-1 mRNA 水平在长期联合使用 IL-1β 和 OSM 以及 TNFα处理后分别下降了 6 倍和 3 倍。健康和 OA 软骨细胞中 SOCS2 启动子的 CpG 甲基化状态没有显著差异。同样,细胞因子刺激也没有改变 SOCS2 启动子的 CpG 甲基化状态。

结论

这项研究表明,OA 中 SOCS2 和 CIS-1 的表达减少,而 SOCS1 和 SOCS3 不受影响。长期用炎性细胞因子处理会减弱 SOCS2 和 CIS-1 的表达,这表明存在潜在的正反馈机制,以及 SOCS 在 OA 发病机制中的作用。

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2
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Nat Rev Rheumatol. 2011 Jan;7(1):33-42. doi: 10.1038/nrrheum.2010.196. Epub 2010 Nov 30.
3
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Front Vet Sci. 2024 Mar 26;11:1374681. doi: 10.3389/fvets.2024.1374681. eCollection 2024.
4
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Inflamm Res. 2023 Dec;72(12):2145-2153. doi: 10.1007/s00011-023-01805-0. Epub 2023 Oct 24.
5
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PLoS Genet. 2023 Jun 22;19(6):e1010763. doi: 10.1371/journal.pgen.1010763. eCollection 2023 Jun.
6
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5
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6
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