利用ER71/ETV2将人真皮成纤维细胞直接重编程为内皮细胞
Direct Reprogramming of Human Dermal Fibroblasts Into Endothelial Cells Using ER71/ETV2.
作者信息
Lee Sangho, Park Changwon, Han Ji Woong, Kim Ju Young, Cho Kyuwon, Kim Eun Jae, Kim Sangsung, Lee Shin-Jeong, Oh Se Yeong, Tanaka Yoshiaki, Park In-Hyun, An Hyo Jae, Shin Claire Min, Sharma Shraya, Yoon Young-Sup
机构信息
From the Department of Pharmacology, College of Medicine, University of Illinois at Chicago (C.P., E.J.K.); Department of Pediatrics, Children's Heart Research and Outcomes Center, Emory University School of Medicine, Atlanta, GA (C.P., J.Y.K., S.Y.O.); Division of Cardiology, Department of Medicine, Emory University School of Medicine, Atlanta, GA (S.L., J.W.H., K.C., S.K., H.J.A., C.M.S., S.S., Y.-s.Y.); Department of Genetics, Yale Stem Cell Center, Yale School of Medicine, New Haven, CT (Y.T., I.-H.P.); and Division of Cardiology, Department of Medicine, Severance Biomedical Science Institute, Yonsei University College of Medicine, Seoul, Korea (S.-J.L., Y.-s.Y.).
From the Department of Pharmacology, College of Medicine, University of Illinois at Chicago (C.P., E.J.K.); Department of Pediatrics, Children's Heart Research and Outcomes Center, Emory University School of Medicine, Atlanta, GA (C.P., J.Y.K., S.Y.O.); Division of Cardiology, Department of Medicine, Emory University School of Medicine, Atlanta, GA (S.L., J.W.H., K.C., S.K., H.J.A., C.M.S., S.S., Y.-s.Y.); Department of Genetics, Yale Stem Cell Center, Yale School of Medicine, New Haven, CT (Y.T., I.-H.P.); and Division of Cardiology, Department of Medicine, Severance Biomedical Science Institute, Yonsei University College of Medicine, Seoul, Korea (S.-J.L., Y.-s.Y.)
出版信息
Circ Res. 2017 Mar 3;120(5):848-861. doi: 10.1161/CIRCRESAHA.116.309833. Epub 2016 Dec 21.
RATIONALE
Direct conversion or reprogramming of human postnatal cells into endothelial cells (ECs), bypassing stem or progenitor cell status, is crucial for regenerative medicine, cell therapy, and pathophysiological investigation but has remained largely unexplored.
OBJECTIVE
We sought to directly reprogram human postnatal dermal fibroblasts to ECs with vasculogenic and endothelial transcription factors and determine their vascularizing and therapeutic potential.
METHODS AND RESULTS
We utilized various combinations of 7 EC transcription factors to transduce human postnatal dermal fibroblasts and found that ER71/ETV2 (ETS variant 2) alone best induced endothelial features. KDR (kinase insert domain receptor) cells sorted at day 7 from ER71/ETV2-transduced human postnatal dermal fibroblasts showed less mature but enriched endothelial characteristics and thus were referred to as early reprogrammed ECs (rECs), and did not undergo maturation by further culture. After a period of several weeks' transgene-free culture followed by transient reinduction of ER71/ETV2, early rECs matured during 3 months of culture and showed reduced ETV2 expression, reaching a mature phenotype similar to postnatal human ECs. These were termed late rECs. While early rECs exhibited an immature phenotype, their implantation into ischemic hindlimbs induced enhanced recovery from ischemia. These 2 rECs showed clear capacity for contributing to new vessel formation through direct vascular incorporation in vivo. Paracrine or proangiogenic effects of implanted early rECs played a significant role in repairing hindlimb ischemia.
CONCLUSIONS
This study for the first time demonstrates that ER71/ETV2 alone can directly reprogram human postnatal cells to functional, mature ECs after an intervening transgene-free period. These rECs could be valuable for cell therapy, personalized disease investigation, and exploration of the reprogramming process.
原理
将人类出生后的细胞直接转化或重编程为内皮细胞(ECs),绕过干细胞或祖细胞状态,对于再生医学、细胞治疗和病理生理学研究至关重要,但在很大程度上仍未得到充分探索。
目的
我们试图用血管生成和内皮转录因子将人类出生后的真皮成纤维细胞直接重编程为内皮细胞,并确定它们的血管化和治疗潜力。
方法与结果
我们利用7种内皮细胞转录因子的各种组合转导人类出生后的真皮成纤维细胞,发现单独使用ER71/ETV2(ETS变体2)最能诱导内皮特征。从ER71/ETV2转导的人类出生后的真皮成纤维细胞中在第7天分选出来的KDR(激酶插入结构域受体)细胞显示出不太成熟但丰富的内皮特征,因此被称为早期重编程内皮细胞(rECs),并且通过进一步培养不会成熟。经过几周的无转基因培养,随后短暂重新诱导ER71/ETV2,早期rECs在培养3个月期间成熟,并显示ETV2表达降低,达到与出生后的人类内皮细胞相似的成熟表型。这些被称为晚期rECs。虽然早期rECs表现出不成熟的表型,但将它们植入缺血后肢可诱导缺血恢复增强。这两种rECs显示出通过体内直接血管整合促进新血管形成的明显能力。植入的早期rECs的旁分泌或促血管生成作用在修复后肢缺血中起重要作用。
结论
本研究首次证明,单独使用ER71/ETV2可在经过无转基因中间期后将人类出生后的细胞直接重编程为功能性成熟内皮细胞。这些rECs对于细胞治疗、个性化疾病研究和重编程过程的探索可能具有重要价值。
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