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Around 10.000 – 150.000 endogenous DNA damage-induced lesions occur in a human body per day and cell. Accumulation of unrepaired lesions can lead to aneuploidy and the loss of genomic integrity which in turn contributes to tumor formation. Therefore, an efficient DNA damage response has to be initiated, in the end leading to cell cycle inhibition and induction of repair. Since it is known that a recently characterized human multiprotein complex named LINC (or human dREAM) together with B-MYB is involved in the regulation of G2/M gene expression (Plk1, cyclin B1, cdc2 etc.), its function in the DNA damage response was analyzed in this study. In growing cells B-MYB is associated to the LIN core complex which consists of 5 different proteins named LIN-9, LIN-54, LIN-52, LIN-37 and RbAp48. After induction of DNA damage B-MYB leaves the complex and binding of E2F4 and p130 to LINC is induced. Importantly, the upstream pathway leading to LINC rearrangement is dependent on the activation of p53 and p21. Interestingly, p53 -/- cells solely have the potential to block in the G2 phase of the cell cycle, thereby making them vulnerable for errors during G2 arrest induction or maintenance. Here I demonstrate that LINC rearrangement is absent in p53 -/- cells and that B-MYB/LINC binding to target gene promoters is increased. This in turn leads to an increased G2/M gene expression after DNA damage induction and triggers premature cell cycle re-entry (checkpoint adaptation). Significantly, B-MYB expression is increased in p53 mutated primary breast cancer tumors and correlates with poor prognosis and reoccurrence probably due to its function in checkpoint adaptation. This study gives evidence that inhibition of B-MYB gene expression or B-MYB function in p53 mutant tumors could be a good choice for adjuvant therapy.
Regulated progression through the cell cycle is essential for ordered cell proliferation. One of the best characterized tumor suppressors is the retinoblastoma protein pRB, which together with the E2F transcription factors regulates cell cycle progression. In the model organisms Drosophila melanogaster and Caenorhabditis elegans, RB/E2F containing multiprotein complexes have been described as transcriptional regulators of gene expression. This work first describes a homologous complex in human cells named LINC (for LIN complex). It consists of a stable core complex containing LIN-9, LIN-37, LIN-52, LIN-54 and RbAp48. This core complex interacts cell cycle-dependently with different pocket proteins and transcription factors. In quiescent cells, LINC associates with p130 and E2F4. In S-phase cells these interactions are lost and LINC binds to B-MYB and p107. The transient knock-down of LIN-54 in primary fibroblasts, as the depletion of LIN-9, leads to cell cycle defects. The cells are delayed before the entry into mitosis. This effect is due to the fact that the knock-down of LINC components leads to the downregulation of cell cycle genes responsible for the entry into and exit from mitosis as well as for checkpoints during mitosis. These LINC target genes are known E2F G2/M target genes, which are expressed later than the classical G1/S E2F target genes. The transcriptional regulation by LINC is a direct effect as LINC binds to the promoters of its target genes throughout the cell cycle. LINC contains three DNA-binding proteins. E2F4 and B-MYB, which cell cycle-dependently bind to LINC, are known DNA-binding transcription factors. Additionally, it is show here that the LINC core complex member LIN-54 also directly binds to the promoter of a LINC target gene. Although the exact molecular mechanism of LINC function needs to be analyzed further, data in this work provide a model for the delayed activation of G2/M target genes. B-MYB, a G1/S E2F target gene, binds to LINC upon its expression in S-phase. Then only LINC is a transcriptional activator that induces the expression of the G2/M genes. This provides an explanation for the delayed expression of these E2F G2/M target genes.