posted on 2021-10-04, 13:24authored byFiona C. Mansergh, Carl S. Daly, Anna L. Hurley, Michael A. Wride, Susan M. Hunter, Martin J. Evans
Background: Understanding the mechanisms controlling stem cell differentiation is the key to
future advances in tissue and organ regeneration. Embryonic stem (ES) cell differentiation can be
triggered by embryoid body (EB) formation, which involves ES cell aggregation in suspension. EB
growth in the absence of leukaemia inhibitory factor (LIF) leads EBs to mimic early embryonic
development, giving rise to markers representative of endoderm, mesoderm and ectoderm. Here,
we have used microarrays to investigate differences in gene expression between 3 undifferentiated
ES cell lines, and also between undifferentiated ES cells and Day 1–4 EBs
Results: An initial array study identified 4 gene expression changes between 3 undifferentiated ES
cell lines. Tissue culture conditions for ES differentiation were then optimized to give the maximum
range of gene expression and growth. -Undifferentiated ES cells and EBs cultured with and without
LIF at each day for 4 days were subjected to microarray analysis. -Differential expression of 23
genes was identified. 13 of these were also differentially regulated in a separate array comparison
between undifferentiated ES cells and compartments of very early embryos. A high degree of inter replicate variability was noted when confirming array results. Using a panel of marker genes, RNA
amplification and RT-PCR, we examined expression pattern variation between individual -D4-Lif
EBs. We found that individual EBs selected from the same dish were highly variable in gene
expression profile.
Conclusion: ES cell lines derived from different mouse strains and carrying different genetic
modifications are almost invariant in gene expression profile under conditions used to maintain
pluripotency. Tissue culture conditions that give the widest range of gene expression and maximise
EB growth involve the use of 20% serum and starting cell numbers of 1000 per EB. 23 genes of
importance to early development have been identified; more than half of these are also identified
using similar studies, thus validating our results. EBs cultured in the same dish vary widely in terms
of their gene expression (and hence, undoubtedly, in their future differentiation potential). This may
explain some of the inherent variability in differentiation protocols that use EBs