利用人类和动物卵母细胞对人类体细胞进行重编程。

Young Chung, Colin E Bishop, Nathan R Treff, Stephen J Walker, Vladislav M Sandler, Sandy Becker, Irina Klimanskaya, Wan-Song Wun, Randall Dunn, Rebecca M Hall, Jing Su, Shi-Jiang Lu, Marc Maserati, Young-Ho Choi, Richard Scott, Anthony Atala, Ralph Dittman, Robert Lanza
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引用次数: 92

摘要

人们对利用动物卵母细胞重编程人类体细胞重新产生了兴趣。在这里,我们比较了从动物和人类来源获得的卵母细胞对人类体细胞核的重编程。采用单胚转录组扩增和全局基因表达分析对桑葚胚的基因表达进行了比较分析。基因组DNA指纹图谱和PCR分析证实克隆胚胎的核基因组来源于供体体细胞。尽管人-人、人-牛和人-兔克隆在形态上相似,并以大约相同的速率(分别为39%、36%和36%)继续发育到桑葚阶段,但供体基因组的重编程模式却截然不同。与种间克隆相比,人-人胚胎的基因表达谱显示,供体细胞核通过广泛的上调进行了广泛的重编程,而正常对照胚胎的关键上调表达模式与之相似。为了解释母体基因表达,从相应的桑葚胚谱中减去去核卵母细胞转录组谱。t检验比较(中位数归一化数据@ fc>4;p
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reprogramming of human somatic cells using human and animal oocytes.

There is renewed interest in using animal oocytes to reprogram human somatic cells. Here we compare the reprogramming of human somatic nuclei using oocytes obtained from animal and human sources. Comparative analysis of gene expression in morula-stage embryos was carried out using single-embryo transcriptome amplification and global gene expression analyses. Genomic DNA fingerprinting and PCR analysis confirmed that the nuclear genome of the cloned embryos originated from the donor somatic cell. Although the human-human, human-bovine, and human-rabbit clones appeared morphologically similar and continued development to the morula stage at approximately the same rate (39, 36, and 36%, respectively), the pattern of reprogramming of the donor genome was dramatically different. In contrast to the interspecies clones, gene expression profiles of the human-human embryos showed that there was extensive reprogramming of the donor nuclei through extensive upregulation, and that the expression pattern was similar in key upregulation in normal control embryos. To account for maternal gene expression, enucleated oocyte transcriptome profiles were subtracted from the corresponding morula-stage embryo profiles. t-Test comparisons (median-normalized data @ fc>4; p<0.005) between human in vitro fertilization (IVF) embryos and human-bovine or human-rabbit interspecies somatic cell transfer (iSCNT) embryos found between 2400 and 2950 genes that were differentially expressed, the majority (60-70%) of which were downregulated, whereas the same comparison between the bovine and rabbit oocyte profiles found no differences at all. In contrast to the iSCNT embryos, expression profiles of human-human clones compared to the age-matched IVF embryos showed that nearly all of the differentially expressed genes were upregulated in the clones. Importantly, the human oocytes significantly upregulated Oct-4, Sox-2, and nanog (22-fold, 6-fold, and 12-fold, respectively), whereas the bovine and rabbit oocytes either showed no difference or a downregulation of these critical pluripotency-associated genes, effectively silencing them. Without appropriate reprogramming, these data call into question the potential use of these discordant animal oocyte sources to generate patient-specific stem cells.

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