Rebecca A. Frum scite author profile

Abstractp53 mutations are present in up to 70% of lung cancer. Cancer cells with p53 mutations, in general, grow more aggressively than those with wildtype p53 or no p53. Expression of tumor-derived mutant p53 in cells leads to up-regulated expression of genes that may affect cell growth and oncogenesis. In our study of this aggressive phenotype, we have investigated the receptor protein tyrosine kinase Axl, which is up-regulated by p53 mutants at both RNA and protein levels in H1299 lung cancer cells expressing mutants p53-R175H, -R273H, and -D281G. Knockdown of endogenous mutant p53 levels in human lung cancer cells H1048 (p53-R273C) and H1437 (p53-R267P) led to a reduction in the level of Axl as well. This effect on Axl expression is refractory to the mutations at positions 22 and 23 of p53, suggesting that p53's transactivation domain may not play a critical role in the up-regulation of Axl gene expression. Chromatin immunoprecipitation (ChIP) assays carried out with acetylated histone antibodies demonstrated induced histone acetylation on the Axl promoter region by mutant p53. Direct mutant p53 nucleation on the Axl promoter was demonstrated by ChIP assays using antibodies against p53. The Axl promoter has a p53/p63 binding site, which however is not required for mutant p53-mediated transactivation. Knockdown of Axl by Axl-specific RNAi caused a reduction of gain-of-function (GOF) activities, reducing the cell growth rate and motility rate in lung cancer cells expressing mutant p53. This indicates that for lung cancer cell lines with mutant p53, GOF activities are mediated in part through Axl.

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MDM2 Controls the Timely Expression of Cyclin A to Regulate the Cell Cycle

Frum

Ramamoorthy

Mohanraj

et al. 2009

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Overexpression of MDM2 has been related to oncogenesis. In this communication, we present evidence to show that MDM2 controls the cell cycle-dependent expression of cyclin A by using a pathway that ensures its timely expression. MDM2 does not inhibit cyclin D or E expression. Silencing of endogenous MDM2 expression elevates cyclin A expression. The p53-binding domain of MDM2 harbors a SWIB region homologous to a conserved domain of a chromosome remodeling factor BRG1-associated protein.The SWIB domain of MDM2 inhibits cyclin A expression in a p53-and BRG1-dependent fashion, suggesting that MDM2 interferes with p53 binding of the BRG1 complex freeing it to repress cyclin A expression. Silencing of cyclin-dependent kinase (cdk) inhibitor p16 prevents MDM2-mediated inhibition of cyclin A expression, implicating its role in the process. MDM2-mediated repression of cyclin A expression induces G 1 -S arrest, which can be rescued by ectopic expression of cyclin A. Cancer cells lacking p53, p16, or BRG1 escape MDM2-mediated repression of cyclin A expression and growth arrest. Our data propose a novel mechanism by which MDM2 controls the cell cycle in normal cells and how cancer cells may escape this important safety

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Mutant p53 establishes targetable tumor dependency by promoting unscheduled replication

Singh¹,

Vaughan²,

Frum³

et al. 2017

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The human oncoprotein MDM2 induces replication stress eliciting early intra-S-phase checkpoint response and inhibition of DNA replication origin firing

Frum

Singh

Vaughan

et al. 2013

Nucleic Acids Research

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Conventional paradigm ascribes the cell proliferative function of the human oncoprotein mouse double minute2 (MDM2) primarily to its ability to degrade p53. Here we report that in the absence of p53, MDM2 induces replication stress eliciting an early S-phase checkpoint response to inhibit further firing of DNA replication origins. Partially synchronized lung cells cultured from p53−/−:MDM2 transgenic mice enter S phase and induce S-phase checkpoint response earlier than lung cells from p53−/− mice and inhibit firing of DNA replication origins. MDM2 activates chk1 phosphorylation, elevates mixed lineage lymphoma histone methyl transferase levels and promotes checkpoint-dependent tri-methylation of histone H3 at lysine 4, known to prevent firing of late replication origins at the early S phase. In the absence of p53, a condition that disables inhibition of cyclin A expression by MDM2, MDM2 increases expression of cyclin D2 and A and hastens S-phase entry of cells. Consistently, inhibition of cyclin-dependent kinases, known to activate DNA replication origins during firing, inhibits MDM2-mediated induction of chk1 phosphorylation indicating the requirement of this activity in MDM2-mediated chk1 phosphorylation. Our data reveal a novel pathway, defended by the intra-S-phase checkpoint, by which MDM2 induces unscheduled origin firing and accelerates S-phase entry of cells in the absence of p53.

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Mechanisms of Mutant p53 Stabilization in Cancer

Frum

Grossman

2014

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p53 transactivates cell cycle inhibitory, apoptosis or senescence-related genes in response to DNA damage to protect the genetic integrity of the cell. Highlighting its critical tumor suppressor functions, p53 is mutated, lost, or functionally inactivated in nearly all cancers. When mutated within its core DNA binding domain, p53's normal instability is abrogated, and oncogenic gain-of-function properties are observed accompanied by massive accumulation of steady state mutant p53 protein levels relative to the low or undetectable steady state level of wild-type (WT) p53 in normal cells. Mutation of p53 may affect its stability through a combination of mutant p53's inherent biochemical and biophysical properties as well as pathways aberrantly activated in genetically damaged cells. The increased stability of mutant p53 proteins is key to its ability to accumulate to high levels and phenotypically exhibit "gain-of-function" properties. In this chapter we will address the multifaceted ways in which intrinsic mutant p53 properties intersect with emergent properties of cancer cells to yield the stable mutant p53 phenotype.

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Rebecca A. Frum

Gain-of-Function Activity of Mutant p53 in Lung Cancer through Up-Regulation of Receptor Protein Tyrosine Kinase Axl

MDM2 Controls the Timely Expression of Cyclin A to Regulate the Cell Cycle

Mutant p53 establishes targetable tumor dependency by promoting unscheduled replication

The human oncoprotein MDM2 induces replication stress eliciting early intra-S-phase checkpoint response and inhibition of DNA replication origin firing

Mechanisms of Mutant p53 Stabilization in Cancer

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