miR-155-5p 的增加和 miR-148a-3p 的减少有助于抑制骨肉瘤细胞死亡。

Increased miR-155-5p and reduced miR-148a-3p contribute to the suppression of osteosarcoma cell death.

机构信息

St Vincent's Institute of Medical Research and Department of Medicine, St Vincent's Hospital, University of Melbourne, Fitzroy, Victoria, Australia.

Myeloma Research Laboratory, School of Medicine, Faculty of Health Sciences, University of Adelaide, Adelaide, South Australia, Australia.

出版信息

Oncogene. 2016 Oct 6;35(40):5282-5294. doi: 10.1038/onc.2016.68. Epub 2016 Apr 4.

DOI:10.1038/onc.2016.68

PMID:27041566

Abstract

Osteosarcoma (OS) is the most common cancer of bone and the 5th leading cause of cancer-related death in young adults. Currently, 5-year survival rates have plateaued at ~70% for patients with localized disease. Those with disseminated disease have an ~20% 5-year survival. An improved understanding of the molecular genetics of OS may yield new approaches to improve outcomes for OS patients. To this end, we applied murine models that replicate human OS to identify and understand dysregulated microRNAs (miRNAs) in OS. miRNA expression patterns were profiled in murine primary osteoblasts, osteoblast cultures and primary OS cell cultures (from primary and paired metastatic locations) isolated from two genetically engineered murine models of OS. The differentially expressed miRNA were further assessed by a cross-species comparison with human osteoblasts and OS cultures. We identified miR-155-5p and miR-148a-3p as deregulated in OS. miR-155-5p suppression or miR-148a-3p overexpression potently reduced proliferation and induced apoptosis in OS cells, yet strikingly, did not impact normal osteoblasts. To define how these miRNAs regulated OS cell fate, we used an integrated computational approach to identify putative candidate targets and then correlated these with the cell biological impact. Although we could not resolve the mechanism through which miR-148a-3p impacts OS, we identified that miR-155-5p overexpression suppressed its target Ripk1 (receptor (TNFRSF)-interacting serine-threonine kinase 1) expression, and miR-155-5p inhibition elevated Ripk1 levels. Ripk1 is directly involved in apoptosis/necroptosis. In OS cells, small interfering RNA against Ripk1 prevented cell death induced by the sequestration of miR-155-5p. Collectively, we show that miR-148a-3p and miR-155-5p are species-conserved deregulated miRNA in OS. Modulation of these miRNAs was specifically toxic to tumor cells but not normal osteoblasts, raising the possibility that these may be tractable targets for miRNA-based therapies for OS.

摘要

骨肉瘤（OS）是最常见的骨癌，也是年轻人癌症相关死亡的第 5 大主要原因。目前，局部疾病患者的 5 年生存率已稳定在 70%左右。那些有播散性疾病的患者 5 年生存率约为 20%。对骨肉瘤分子遗传学的深入了解可能为骨肉瘤患者的治疗带来新的方法。为此，我们应用了复制人类骨肉瘤的小鼠模型，以鉴定和理解骨肉瘤中失调的 microRNAs（miRNAs）。在从两种遗传工程化的骨肉瘤小鼠模型中分离的原代成骨细胞、成骨细胞培养物和原代骨肉瘤细胞培养物中，对 miRNA 的表达模式进行了分析。通过与人类成骨细胞和骨肉瘤培养物的种间比较，进一步评估了差异表达的 miRNA。我们发现 miR-155-5p 和 miR-148a-3p 在骨肉瘤中失调。miR-155-5p 的抑制或 miR-148a-3p 的过表达可显著抑制骨肉瘤细胞的增殖并诱导其凋亡，但令人惊讶的是，这对正常成骨细胞没有影响。为了确定这些 miRNA 如何调节骨肉瘤细胞的命运，我们使用了一种综合的计算方法来鉴定可能的候选靶点，然后将这些靶点与细胞生物学的影响相关联。尽管我们无法确定 miR-148a-3p 影响骨肉瘤的机制，但我们发现 miR-155-5p 的过表达抑制了其靶基因 Ripk1（受体（TNFRSF）-相互作用丝氨酸-苏氨酸激酶 1）的表达，而 miR-155-5p 的抑制则增加了 Ripk1 的水平。Ripk1 直接参与凋亡/坏死。在骨肉瘤细胞中，针对 Ripk1 的小干扰 RNA 可阻止 miR-155-5p 被隔离所诱导的细胞死亡。总之，我们表明 miR-148a-3p 和 miR-155-5p 是骨肉瘤中物种保守的失调 miRNA。这些 miRNA 的调节对肿瘤细胞有特异性毒性，但对正常成骨细胞没有毒性，这提示这些 miRNA 可能是骨肉瘤 miRNA 治疗的可行靶点。

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miR-155-5p 的增加和 miR-148a-3p 的减少有助于抑制骨肉瘤细胞死亡。

Increased miR-155-5p and reduced miR-148a-3p contribute to the suppression of osteosarcoma cell death.

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