Stem cells represent basic units of development and regeneration characterized by nearly unlimited self-renewal and differentiation capacities, but the greatest developmental capacity is restricted to embryonic stem (ES) cells isolated from the inner cell mass of pre-implantation embryos(Wobus & Boheler, 2005). In this research project, we have extended traditional genomic analyses to identify cis-elements that might be implicated in the control of ES cell-restricted gene promoters. The strategy that we employed relied on the generation of a Problem Specific List (PSL) from Serial Analysis of Gene Expression (SAGE) profiles, and subsequent promoter analyses to identify frameworks of multiple cis-elements conserved in space and orientation among genes from the PSL. Subsequent experimental data suggested that two transcription factors, B-Myb and Maz, predicted from these models are implicated either in the maintenance of the undifferentiated stem cell state or in early steps of differentiation. We have since focused on the role of B-Myb. ? Importantly, the transcription factor B-Myb is present in all proliferating cells, and in mice engineered to remove this gene, embryos die in utero just after implantation due to inner cell mass defects. This lethal phenotype has generally been attributed to a proliferation defect in the cell cycle phase of G1. Our research has recently shown that the major cell cycle defect in murine embryonic stem (mES) cells lacking B-Myb occurs in G2/M phase of the cell cycle. Specifically, knockdown of B-Myb by short-hairpin RNAs results in delayed transit through G2/M, severe mitotic spindle and centrosome defects, and in polyploidy. Moreover, many euploid mES cells that are transiently deficient in B-Myb become aneuploid and can no longer be considered viable. Knockdown of B-Myb in mES cells also decreases Oct4 RNA and protein abundance, while over-expression of B-MYB modestly up-regulates pou5f1 gene expression. The coordinated changes in B-Myb and Oct4 expression are due, at least partly, to the ability of B-Myb to directly modulate pou5f1 gene promoter activity in vitro. Ultimately, the loss of B-Myb and associated loss of Oct4 lead to an increase in early markers of differentiation prior to the activation of caspase-mediated programmed cell death. ? These findings lead us to conclude that appropriate B-Myb expression is critical to the maintenance of chromosomally stable and pluripotent ES cells, while its absence promotes chromosomal instability that results in either aneuploidy or differentiation-associated cell death.
| Gundry, Rebekah L; Boheler, Kenneth R; Van Eyk, Jennifer E et al. (2008) A novel role for proteomics in the discovery of cell-surface markers on stem cells: Scratching the surface. Proteomics Clin Appl 2:892-903 |
