Phermthai Tatsanee, Pokathikorn Puttachart, Wichitwiengrat Suparat, Thongbopit Sasiprapa, Tungprasertpol Kittima, Julavijitphong Suphakde
Stem Cell Research and Development Unit, Obstetrics and Gynecology Department, Faculty of Medicine Siriraj Hospital, Mahidol University , Bangkok, Thailand .
Stem Cells Dev. 2017 Sep 15;26(18):1344-1354. doi: 10.1089/scd.2016.0356. Epub 2017 Jun 14.
Mesenchymal stem cells (MSC) are promising cells for medical therapy. In in vitro expansion, MSC can give rise to progeny with genomic and epigenomic alterations, resulting in senescence, loss of terminal differentiation, and transformation to cancer. However, MSC genome protects its genetic instability by a guardian function of the P53 tumor suppressor gene and epigenetic balance system during MSC culture. Mutations of P53 and epigenetic alterations have been reported to disrupt the quality and quantity of MSC and initiate tumorigenesis. We monitor P53 and epigenetic changes in MSC derived from amniotic fluid (AF-MSC), amnion membrane (AM-MSC), endometrium (EM-MSC), and Wharton's jelly (WJ-MSC) by the missense mutation analysis of the P53 gene and the expression levels of P53, and epigenetic insulin-like growth factor 2 (IGF2) and H19-imprinted genes. Our work demonstrates a variation of P53 expression among different MSC types. AF-MSC has a high P53 expression level with retaining a stability of P53 expression throughout a long culture period, whereas EM-MSC and WJ-MSC showed variation of P53 gene expression during culture. Epigenetic analysis showed a stable H19 expression pattern in AF-MSC, AM-MSC, and EM-MSC culture, whereas H19 expression fluctuated in WJ-MSC culture. We conclude that gene instability can be found during in vitro MSC expansion. With awareness to MSC quality and safety in MSC transformation risk, P53 mutation and IGF2 and H19-imprinted gene analysis should be applied to monitor in therapeutic-grade MSC. We also demonstrated that AF-MSC is one of the most interesting MSC for medical therapy because of its high genomic stability and epigenetic fidelity.
间充质干细胞(MSC)是医学治疗中很有前景的细胞。在体外扩增过程中,MSC可产生具有基因组和表观基因组改变的后代,导致细胞衰老、终末分化丧失以及转化为癌细胞。然而,在MSC培养过程中,MSC基因组通过P53肿瘤抑制基因的保护功能和表观遗传平衡系统来保护其遗传稳定性。据报道,P53突变和表观遗传改变会破坏MSC的质量和数量并引发肿瘤发生。我们通过对P53基因的错义突变分析以及P53、表观遗传胰岛素样生长因子2(IGF2)和H19印记基因的表达水平,监测羊水来源的MSC(AF-MSC)、羊膜来源的MSC(AM-MSC)、子宫内膜来源的MSC(EM-MSC)和脐带华通氏胶来源的MSC(WJ-MSC)中的P53和表观遗传变化。我们的研究表明不同类型的MSC中P53表达存在差异。AF-MSC具有较高的P53表达水平,并且在长时间培养过程中保持P53表达的稳定性,而EM-MSC和WJ-MSC在培养过程中显示出P53基因表达的变化。表观遗传分析表明,在AF-MSC、AM-MSC和EM-MSC培养过程中H19表达模式稳定,而在WJ-MSC培养过程中H19表达波动。我们得出结论,在体外MSC扩增过程中可发现基因不稳定。鉴于认识到MSC转化风险中的质量和安全性,应进行P53突变以及IGF2和H19印记基因分析以监测治疗级MSC。我们还证明,由于AF-MSC具有高基因组稳定性和表观遗传保真度,它是医学治疗中最具吸引力的MSC之一。
