Clonal genetic and hematopoietic heterogeneity among human-induced pluripotent stem cell lines

JA Mills, K Wang, P Paluru, L Ying, L Lu… - Blood, The Journal …, 2013 - ashpublications.org
JA Mills, K Wang, P Paluru, L Ying, L Lu, AM Galvao, D Xu, Y Yao, SK Sullivan, LM Sullivan…
Blood, The Journal of the American Society of Hematology, 2013ashpublications.org
Induced pluripotent stem cells (iPSCs) hold great promise for modeling human
hematopoietic diseases. However, intrinsic variability in the capacities of different iPSC lines
for hematopoietic development complicates comparative studies and is currently
unexplained. We created and analyzed 3 separate iPSC clones from fibroblasts of 3 different
normal individuals using a standardized approach that included excision of integrated
reprogramming genes by Cre-Lox mediated recombination. Gene expression profiling and …
Abstract
Induced pluripotent stem cells (iPSCs) hold great promise for modeling human hematopoietic diseases. However, intrinsic variability in the capacities of different iPSC lines for hematopoietic development complicates comparative studies and is currently unexplained. We created and analyzed 3 separate iPSC clones from fibroblasts of 3 different normal individuals using a standardized approach that included excision of integrated reprogramming genes by Cre-Lox mediated recombination. Gene expression profiling and hematopoietic differentiation assays showed that independent lines from the same individual were generally more similar to one another than those from different individuals. However, one iPSC line (WT2.1) exhibited a distinctly different gene expression, proliferation rate, and hematopoietic developmental potential relative to all other iPSC lines. This “outlier” clone also acquired extensive copy number variations (CNVs) during reprogramming, which may be responsible for its divergent properties. Our data indicate how inherent and acquired genetic differences can influence iPSC properties, including hematopoietic potential.
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