Abstract 5438: Gene expression profiles resulting from stable and transient loss of p53 mirrors its role in tissue differentiation.

Abstract

Abstract The tumor repressor gene, p53, is involved in a variety of cellular activities ranging from stress, differentiation and cell cycle regulation. In our previous studies we have shown p53’s transcription activating role to be important in osteoblast differentiation. There is still a debate in the literature as to whether p53 inhibits or promotes differentiation. We have found p53 heterozygous mice to show a p53 dependency on some bone marker gene expression while the same is absent in p53 null mice. This deficiency of p53 has also been shown to produce more osteosarcomas than a complete loss of p53. This suggests that the presence of p53 is able to modify the environment within pre osteoblasts based on its ability to regulate key bone specific genes. In the present study we compared changes in gene expression resulting after either a transient or stable reduction in p53. Accordingly we reduced p53 levels in C2C12 cells capable of both myoblast and osteoblast differentiation transiently, and compared the changes in gene expression of candidate genes to cells with stable p53 knockdown. Using a PCR array to assay p53 target genes, we have found differential expression profiles when comparing stable versus transient knockdown. As expected several of genes that were profoundly affected after transient p53 loss were related to apoptosis and cell cycle regulation. Stable p53 loss produced a greater change in MyoD and other transcription factors with tissue specific roles suggesting that long term effect of p53 loss affects tissue homeostasis to a greater degree than changes resulting from acute loss of p53. These differences in gene expression were also validated by measuring promoter activities of different pathway specific genes involved in differentiation. These studies suggest that an important role for p53 is context dependent, with a stable reduction in p53 expression profoundly affecting normal tissue physiology than its acute loss. Citation Format: Oliver Couture, Eric Lombardi, Kendra Davis, Emily Hays, Nalini Chandar. Gene expression profiles resulting from stable and transient loss of p53 mirrors its role in tissue differentiation. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 5438. doi:10.1158/1538-7445.AM2013-5438