人妊娠早期绒毛膜绒毛多能细胞滋养层细胞的鉴定。

Paola Spitalieri, Giancarlo Cortese, Adalgisa Pietropolli, Antonio Filareto, Susanna Dolci, Francesca Gioia Klinger, Emiliano Giardina, Silvia Di Cesare, Laura Bernardini, Davide Lauro, M Lucia Scaldaferri, H Lucia Scaldaferri, Gennaro Citro, Giuseppe Novelli, Massimo De Felici, Federica Sangiuolo
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引用次数: 31

摘要

在这篇文章中,我们使用免疫组织化学和FACS分析表明,在人胎儿绒毛膜绒毛样本(CVSs)的细胞滋养层组织中存在表达人类干细胞典型标记的细胞,如SSEA4、OCT-4、ALP和CD117。在对CV细胞进行SSEA4免疫选择后,FACS分析显示OCT-4和ALP阳性细胞数量增加,侧群(SP)细胞比例很小(约4%)。在相同的细胞群中,RT-PCR显示OCT-4、NANOG和SOX2转录物的存在,也是干细胞的典型转录物。根据体外条件,一部分SSEA4+细胞形成类似hESCs的集落,自我更新能力有限。同时,这些细胞能够在体外分化为所有三种胚层的衍生物。当接种到免疫功能低下的小鼠时,SSEA4+细胞不会形成畸胎瘤,但能够填充耗尽的造血组织。此外,注射到小鼠囊胚后,它们被纳入内细胞团,并可在成年嵌合小鼠的多个组织中追踪。最后,我们证明了从脊髓性肌萎缩症(SMA)胎儿中分离的SSEA4+细胞可以通过小片段同源重组(SFHR)(一种基因靶向方法)在培养中高效地进行基因纠正。综上所述,我们的研究结果表明,从人CVSs中获得的SSEA4+细胞含有一个多能细胞亚群,我们建议将其命名为人细胞滋养母细胞衍生多能细胞(hCTMCs)。这些细胞可能是一种安全方便的细胞基础治疗的细胞来源,也是子宫内胎儿基因治疗的理想靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Identification of multipotent cytotrophoblast cells from human first trimester chorionic villi.

In this article we used immunohistochemistry and FACS analyses to show that cells expressing markers typical of human stem cells such as SSEA4, OCT-4, ALP, and CD117 are present within the cytotrophoblastic tissue of human fetal chorionic villus samples (CVSs). After immunoselection of CV cells for SSEA4, FACS analyses showed an increased number of cells positive for OCT-4 and ALP and a small percentage (around 4%) of side population (SP) cells. In the same cell population, RT-PCR indicated the presence of OCT-4, NANOG, and SOX2 transcripts, also typical of stem cells. Depending on the in vitro conditions, a subset of SSEA4+ cells formed colonies resembling hESCs, with limited self renewal ability. At the same time, these cells were able to differentiate in vitro into derivatives of all three germ layers. When inoculated into immunocompromised mice, SSEA4+ cells did not form teratomas but were able to populate depleted hematopoietic tissues. Moreover, after injection into mouse blastocysts, they were incorporated into the inner cell mass and could be traced into several tissues of the adult chimeric mice. Finally, we show that SSEA4+ cells isolated from fetuses affected by Spinal Muscular Atrophy (SMA) can be genetically corrected with high efficiency in culture by Small Fragment Homologous Recombination (SFHR), a gene targeting approach. Taken together, our results indicate that SSEA4+ cells obtained from human CVSs contain a subpopulation of multipotent cells that we propose to name Human Cytotrophoblastic-derived Multipotent Cells (hCTMCs). These cells may be a safe and convenient source of cells for cell-based therapy, as well as an ideal target for in utero fetal gene therapy.

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