国际口腔医学杂志

国际口腔医学杂志 ›› 2018, Vol. 45 ›› Issue (3): 267-271.doi: 10.7518/gjkq.2018.03.004

• 干细胞专栏 • 上一篇    下一篇

长链非编码RNA在间充质干细胞多向分化过程中的调节作用

葛逸弘1, 房付春1,2, 吴补领1,2   

  1. 1.南方医科大学南方医院口腔科 广州 510515;
    2.南方医科大学口腔医学院 广州 510515
  • 收稿日期:2017-11-03 修回日期:2018-01-26 发布日期:2018-05-08
  • 通讯作者: 吴补领,教授,博士,Email:bulingwu@smu.edu.cn
  • 作者简介:葛逸弘,硕士,Email:yihong_ge@126.com
  • 基金资助:
    国家自然科学基金(81600882);广东省医学科学技术研究基金(A2016190)

Regulate process of long non-coding RNA in multi-differentiation of mesenchymal stem cells

Ge Yihong1, Fang Fuchun1,2, Wu Buling1,2   

  1. 1. Dept. of Stomatology, Nanfang Hospital, Southern Medical University, Guangzhou 510515, China;
    2. School of Stomatology, Southern Medical University, Guangzhou 510515, China
  • Received:2017-11-03 Revised:2018-01-26 Published:2018-05-08
  • Supported by:
    This study was supported by National Natural Science Fundation of China (81600882) and Medical Scientific Research Foundation of Guangdong Province (A2016190).

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摘要: 间充质干细胞是来源于中胚层的多能干细胞,具有自我更新和多向分化的潜能,目前已经证实其能够分化成骨细胞、软骨细胞、肌肉细胞、脂肪细胞和神经细胞等,并在组织修复中发挥重要作用。研究发现长链非编码RNA(lncRNA)在间充质干细胞多向分化过程中差异表达,表明lncRNA可能是间充质干细胞分化中的重要调控点。虽然目前关于该方面的功能及机制的探讨较少,且主要停留在基因芯片和生物信息学分析层面,但伴随着新的研究技术体系的建立,lncRNA在间充质干细胞多向分化中的机制终将得以阐明。

关键词: 间充质干细胞, 长链非编码RNA, 多向分化

Abstract: Mesenchymal stem cells (MSCs) derived from mesoderm exhibit self-renewal and multiple differentiation potentials. MSCs are considerably useful in tissue repair and cell development, with the ability to differentiate into osteoblasts, chondrocytes, adipocytes, myoblasts, neurocytes and other cells. Long noncoding RNAs (lncRNAs) are differentially expressed in the differentiation of MSCs. This result indicated that lncRNAs are crucial in regulation during differentiation. To date, most reports mainly focused on microarray and bioinformatics analysis of lncRNAs. The function and regulatory mechanism of lncRNAs on the differentiation of MSCs still remain unclear. However, with the development in new research technologies, the regulatory mechanism of lncRNA in the differentiation of MSCs will be intensively elucidated.

Key words: mesenchymal stem cell, long noncoding RNA, multi-differentiation

中图分类号: 

  • Q254
[1] Pittenger MF, Mackay AM, Beck SC, et al.Multi-lineage potential of adult human mesenchymal stem cells[J]. Science, 1999, 284(5411):143-147.
[2] Jin HJ, Bae YK, Kim M, et al.Comparative analysis of human mesenchymal stem cells from bone mar-row, adipose tissue, and umbilical cord blood as sources of cell therapy[J]. Int J Mol Sci, 2013, 14(9): 17986-18001.
[3] Quinodoz S, Guttman M.Long noncoding RNAs: an emerging link between gene regulation and nuclear organization[J]. Trends Cell Biol, 2014, 24(11):651-663.
[4] Vučićević D, Corradin O, Ntini E, et al.Long ncRNA expression associates with tissue-specific enhancers[J]. Cell Cycle, 2015, 14(2):253-260.
[5] Villegas VE, Zaphiropoulos PG.Neighboring gene regulation by antisense long non-coding RNAs[J]. Int J Mol Sci, 2015, 16(2):3251-3266.
[6] 左长清, 卢旱云, 钟月春, 等. 长链非编码RNA AK089560在间质干细胞成骨与成脂分化中的表达[J]. 中国组织工程研究, 2014, 18(23):3732-3738.
Zuo CQ, Lu HY, Zhong YC, et al.The expression of long non-coding RNA AK089560 in mesenchymal stem cells undergoing osteogenic and adipogenic differentiation[J]. Chin J Tissue Eng Res, 2014, 18(23):3732-3738.
[7] Zuo C, Wang Z, Lu H, et al.Expression profiling of lncRNAs in C3H10T1/2 mesenchymal stem cells undergoing early osteoblast differentiation[J]. Mol Med Rep, 2013, 8(2):463-467.
[8] Wang L, Wang Y, Li Z, et al.Differential expression of long noncoding ribonucleic acids during osteo-genic differentiation of human bone marrow mesen-chymal stem cells[J]. Int Orthop, 2015, 39(5):1013-1019.
[9] 罗嘉全, 黄路, 刘会文, 等. hMSC成骨分化相关lncRNA的筛选和初步鉴定[J]. 中山大学学报(医学科学版), 2014, 35(2):230-236.
Luo JQ, Huang L, Liu HW, et al.Screening and primary identification of lncRNA involved in osteo-genic differentiation of hMSC[J]. J Sun Yat-sen Univ (Med Sci), 2014, 35(2):230-236.
[10] Qu Q, Fang F, Wu B, et al.Potential role of long non-coding RNA in osteogenic differentiation of human periodontal ligament stem cells[J]. J Perio-dontol, 2016, 87(7):e127-e137.
[11] Zhu L, Xu PC.Downregulated lncRNA-ANCR pro-motes osteoblast differentiation by targeting EZH2 and regulating Runx2 expression[J]. Biochem Bio-phys Res Commun, 2013, 432(4):612-617.
[12] Zhuang W, Ge X, Yang S, et al.Upregulation of lncRNA MEG3 promotes osteogenic differentiation of mesenchymal stem cells from multiple myeloma patients by targeting BMP4 transcription[J]. Stem Cells, 2015, 33(6):1985-1997.
[13] Jia Q, Jiang W, Ni L.Down-regulated non-coding RNA (lncRNA-ANCR) promotes osteogenic dif-ferentiation of periodontal ligament stem cells[J]. Arch Oral Biol, 2015, 60(2):234-241.
[14] Huang Y, Zheng Y, Jia L, et al.Long noncoding RNA H19 promotes osteoblast differentiation via TGF-β1/Smad3/HDAC signaling pathway by deri-ving miR-675[J]. Stem Cells, 2016, 33(12):3481-3492.
[15] Liang WC, Fu WM, Wang YB, et al.H19 activates Wnt signaling and promotes osteoblast differentia-tion by functioning as a competing endogenous RNA[J]. Sci Rep, 2016, 6:20121.
[16] Wang L, Wu F, Song Y, et al.Long noncoding RNA related to periodontitis interacts with miR-182 to upregulate osteogenic differentiation in periodontal mesenchymal stem cells of periodontitis patients[J]. Cell Death Dis, 2016, 7(8):e2327.
[17] Wang L, Li Z, Li Z, et al.Long noncoding RNAs expression signatures in chondrogenic differentiation of human bone marrow mesenchymal stem cells[J]. Biochem Biophys Res Commun, 2015, 456(1):459-464.
[18] Liu Q, Zhang X, Dai L, et al.Long noncoding RNA related to cartilage injury promotes chondrocyte ex-tracellular matrix degradation in osteoarthritis[J]. Arthritis Rheumatol, 2014, 66(4):969-978.
[19] Steck E, Boeuf S, Gabler J, et al.Regulation of H19 and its encoded microRNA-675 in osteoarthritis and under anabolic and catabolic in vitro conditions[J]. J Molr Med, 2012, 90(10):1185-1195.
[20] Kim D, Song J, Han J, et al.Two non-coding RNAs, MicroRNA-101 and HOTTIP contribute cartilage integrity by epigenetic and homeotic regulation of integrin-α1[J]. Cell Signal, 2013, 25(12):2878-2887.
[21] Xiao T, Liu L, Li H, et al.Long noncoding RNA ADINR regulates adipogenesis by transcriptionally activating C/EBPα[J]. Stem Cell Rep, 2015, 5(5): 856-865.
[22] Huang Y, Zheng Y, Jin C, et al.Long noncoding RNA H19 inhibits adipocyte differentiation of bone marrow mesenchymal stem cells through epigenetic modulation of gistone deacetylases[J]. Sci Rep, 2016, 6:28897.
[23] Wu AM, Ni WF, Huang ZY, et al.Analysis of dif-ferentially expressed lncRNAs in differentiation of bone marrow stem cells into neural cells[J]. J Neurol Sci, 2015, 351(1/2):160-167.
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