Genetics and Epigenetics, Cell and Molecular Biology Graduate Group, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA, USA.
Department of Cell and Developmental Biology, Feinberg School of Medicine, Northwestern University, Chicago, IL, USA.
Genome Biol. 2022 Apr 5;23(1):90. doi: 10.1186/s13059-022-02654-6.
Cardiac differentiation of human-induced pluripotent stem (hiPS) cells consistently produces a mixed population of cardiomyocytes and non-cardiac cell types, even when using well-characterized protocols. We sought to determine whether different cell types might result from intrinsic differences in hiPS cells prior to the onset of differentiation.
By associating individual differentiated cells that share a common hiPS cell precursor, we tested whether expression variability is predetermined from the hiPS cell state. In a single experiment, cells that shared a progenitor were more transcriptionally similar to each other than to other cells in the differentiated population. However, when the same hiPS cells were differentiated in parallel, we did not observe high transcriptional similarity across differentiations. Additionally, we found that substantial cell death occurs during differentiation in a manner that suggested all cells were equally likely to survive or die, suggesting that there is no intrinsic selection bias for cells descended from particular hiPS cell progenitors. We thus wondered how cells grow spatially during differentiation, so we labeled cells by expression of marker genes and found that cells expressing the same marker tended to occur in patches. Our results suggest that cell type determination across multiple cell types, once initiated, is maintained in a cell-autonomous manner for multiple divisions.
Altogether, our results show that while substantial heterogeneity exists in the initial hiPS cell population, it is not responsible for the variability observed in differentiated outcomes; instead, factors specifying the various cell types likely act during a window that begins shortly after the seeding of hiPS cells for differentiation.
即使使用特征明确的方案,人类诱导多能干细胞(hiPS)的心脏分化也始终会产生混合的心肌细胞和非心肌细胞类型。我们试图确定在分化开始之前,不同的细胞类型是否可能源于 hiPS 细胞的内在差异。
通过关联具有共同 hiPS 细胞前体的单个分化细胞,我们测试了表达变异性是否从 hiPS 细胞状态预先确定。在单个实验中,共享祖细胞的细胞彼此之间的转录相似性高于分化群体中的其他细胞。然而,当相同的 hiPS 细胞平行分化时,我们没有观察到跨分化的高转录相似性。此外,我们发现细胞在分化过程中发生大量死亡,这表明所有细胞都同样有可能存活或死亡,这表明不存在从特定 hiPS 细胞祖细胞衍生的细胞的内在选择偏倚。因此,我们想知道细胞在分化过程中如何在空间上生长,所以我们通过表达标记基因对细胞进行标记,发现表达相同标记的细胞往往出现在斑块中。我们的结果表明,一旦开始,多个细胞类型的细胞类型决定在多个分裂中以细胞自主的方式维持。
总的来说,我们的结果表明,尽管初始 hiPS 细胞群体中存在大量异质性,但它不是分化结果中观察到的可变性的原因;相反,指定各种细胞类型的因素可能在 hiPS 细胞播种用于分化后的短时间窗口内起作用。
