重型α-地中海贫血胎儿羊水源诱导多能干细胞的建立及鉴定

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Abstract Objective To explore the establishment and identification of induced pluripotent stem cells sourced fetal amniotic fluid cells of a fetus with severe α-halassemia. Methods Ultrasound-guided amniocentesis was performed on pregnant women (16+ weeks) whose fetus was diagnosed with severe α-halassemia(--SEA/--SEA), 10 mL of amniotic fluid was extracted. The amniotic fluid cells of a fetus with severe α-halassemia which were reprogrammed into induced pluripotent stem cells (iPSCs) by non-integrated sendai virus mediated transcription factors of Sox2, Klf4, c-Myc, Oct 3/4. IPSCs were multifunctionally identified by alkaline phosphatase (ALP) test and immunofluorescence (IF) labeling. The ability of iPSCs to differentiate outward from three endodermal cells in vivo was identified by embryoid (EB) formation and spontaneous differentiation test. Cell karyotype analysis and genetic diagnosis of type α-thalassemia were performed. Results Sendai virus could successfully reprogram the amniotic fluid cells of a fetus with severe α-halassemia into non-integrated induced pluripotent stem cells (h-AF-SeV-iPSCs). H-AF-SeV-iPSCs were strongly positive of ALP staining, and embryonic stem cells specific proteins of SOX2, Oct4, SSEA-4 and Tra-1-81 were positive expressed of IF staining. After the suspension culture of h-AF-SeV-iPSCs, the cystic EB body could be formed, and after the adherent culture, it could also differentiate into the three germ layers. The karyotype analysis of chromosome in the 10th and 20th generation of h-AF-SeV-iPSCs were normal (46, XY). H-AF-SeV-iPSCs and its primary amniotic fluid cells were all detected as --SEA/--SEA. Conclusion The h-AF-SeV-iPSCs could be used as an ideal cell model for study of intrauterine treatment of a fetus with severe α-halassemia, and amniotic fluid cells could be used as an ideal cells source for iPSCs.

Key words： Severe α-halassemia Amniotic fluid cells Induced pluripotent stem cells Sendai virus

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	ZHANG Juan LAI Chuntian WAND Haiyan ZOU Wenda PENG Juan ZHU Liyu LI Hui

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ZHANG Juan LAI Chuntian WAND Haiyan ZOU Wenda PENG Juan ZHU Liyu LI Hui. Establishment and identification of induced pluripotent stem cells sourced fetal amniotic fluid cells of a fetus with severe α-halassemia[J]. 中国医药导报, 2019, 16(27): 18-23.

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http://www.yiyaodaobao.com.cn/EN/ OR http://www.yiyaodaobao.com.cn/EN/Y2019/V16/I27/18

[1] 胡俊杰，陈鑫苹，符生苗.干细胞治疗地中海贫血：现状及未来[J].中国组织工程研究，2018，22（21）：3431-3437.
[2] 严金梅.重型α-地中海贫血胎儿羊水来源的诱导多能干细胞系的建立及鉴定[D].广州：广州医科大学，2017.
[3] 冼业星，严金梅，陈玉嫦，等.血红蛋白Bart′s水肿胎儿综合征诱导多能干细胞系的建立[J].实用医学杂志，2018， 34（7）：1123-1127，1131.
[4] 李华晖.重型地中海贫血患者同胞造血干细胞移植后移植物抗宿主病相关危险因素分析[D].广西：广西医科大学，2017.
[5] 李继慧，覃运荣，梁毅.地中海贫血的实验室分子诊断技术研究进展[J].分子诊断与治疗杂志，2018，10（3）：202-205.
[6] 刘雅丽.ssODNs结合小分子化合物对β-地中海贫血病人特异iPS细胞系基因修复的研究[D].广州：广州医科大学，2017.
[7] 黄利华，刘冬霞，李伟明，等.广东省清远地区人群α-地中海贫血基因型及临床表型特点[J].第三军医大学学报，2017，39（6）：584-588.
[8] 唐燕青，陈秋莉，陈碧艳，等.15969例轻型α地中海贫血的基因型和血液学分析[J].中国计划生育学杂志，2017，25（1）：57-60.
[9] 贺钰磊，徐鸣，谢雅梅，等.四川地区α地中海贫血基因检测结果及分布特征分析[J].四川医学，2017，38（11）：1304-1306.
[10] 李哲涛，李伍高，唐永梅，等.东南亚缺失型α地中海贫血的胚胎植入前遗传学诊断[J].实用医学杂志，2017， 33（12）：2006-2008.
[11] 罗茗月，肖克林，邵聪文，等.α地中海贫血不同基因型携带（患）者红细胞参数的差异性研究[J].中国计划生育学杂志，2017，25（7）：474-478.
[12] 林芬，杨立业，林敏，等.华南人群地中海贫血的罕见基因突变[J].中华医学遗传学杂志，2017，34（6）：792-796.
[13] 李荣，邓明芬，徐艳文，等.应用全基因组扩增技术对α地中海贫血进行植入前遗传学诊断的效果分析[J].生殖医学杂志，2018，27（2）：166-170.
[14] 孕妇七项血液指标在东南亚型α-地中海贫血诊断、筛查中的价值分析[J].现代诊断与治疗，2017，28（2）：166-170.
[15] 杜丽，王继成，秦丹卿，等.HKαα地中海贫血的基因诊断及临床表型分析[J].中国产前诊断杂志：电子版，2017， 9（3）：20-22.
[16] Kwon EM，Connelly JP，Hansen NF，et al. iPSCs and fibroblast subclones from the same fibroblast population contain comparable levels of sequence variations [J]. Proc Natl Acad Sci USA，2017，114（8）：1964-1969.
[17] He S，Qin Q，Huang P，et al. Characterization of a Large Novel α-Globin Gene Cluster Deletion Causing α0-Thalassemia in a Chinese Family [J]. Hemoglobin，2017，41（4-6）：297-299.
[18] Para S，Mungkalasut P，Chanda M，et al. An Observational Study of the Effect of Hemoglobinopathy，Alpha Thalassemia and Hemoglobin E on P.Vivax Parasitemia [J]. Mediterr J Hematol Infect Dis，2018，10（1）：e2018015.
[19] de Azevedo LA，Bonazzoni J，Wagner SC，et al. Do Alpha Thalassemia，Fetal Hemoglobin，and the UGT1A1 Polymorphism have an Influence on Serum Bilirubin Levels and Cholelithiasis in Patients with Sickle Cell Disease? [J]. Mol Diagn Ther，2017，21（4）：437-442.
[20] Hsu SY，Chen SH，Fu RH. Alpha-thalassemia major and restrictive foramen ovale in a preterm neonate without severe hydrops fetalis [J]. Pediatr Neonatol，2017，58（6）：546-548.
[21] Nguyen LS，Redheuil A，Mangin O，et al. Sickle-cell and alpha-thalassemia traits resulting in non-atherosclerotic myocardial infarction：Beyond coincidence? [J]. World J Clin Cases，2017，5（12）：428-431.