MDM2, MDM2-C, and mutant p53 expression influence breast cancer survival in a multiethnic population.

Purpose: The purpose of the study was to examine the association between expression of mutant p53 (mtp53), full-length MDM2 (MDM2), and MDM2 isoform C (MDM2-C) and survival in multiethnic breast cancer patients.

Methods: A total of 787 invasive breast tumors included in a clinically annotated multiethnic population-based tissue microarray (TMA) were screened utilizing commercially available antibodies to p53 and MDM2, and a newly developed monoclonal antibody recognizing MDM2-C.

Results: Mutant p53 (mtp53) was more common in younger (< 50 years) breast cancer patients.

Endogenous human MDM2-C is highly expressed in human cancers and functions as a p53-independent growth activator.

Human cancers over-expressing mdm2, through a T to G variation at a single nucleotide polymorphism at position 309 (mdm2 SNP309), have functionally inactivated p53 that is not effectively degraded. They also have high expression of the alternatively spliced transcript, mdm2-C. Alternatively spliced mdm2 transcripts are expressed in many forms of human cancer and when they are exogenously expressed they transform human cells.

Splicing up mdm2 for cancer proteome diversity.

Cancer cells often have high expression of Mdm2. However, in many cancers mdm2 is alternatively spliced, with more than 40 mRNA variants identified. Many of the alternative spliced mdm2 mRNAs have the potential to encode truncated Mdm2 isoforms.

One-pot synthesis of azaindoles via palladium-catalyzed alpha-heteroarylation of ketone enolates.

A convenient, one-pot method for the construction of a variety of azaindoles using simple ketones and haloaminopyridines is described.

Disruption of the p53-Mdm2 complex by Nutlin-3 reveals different cancer cell phenotypes.

Introduction: Mdm2 inhibits p53 transactivation by forming a p53-Mdm2 complex on chromatin. Upon DNA damage-induced complex disruption, such latent p53 can be activated, but in cells overexpressing Mdm2 because of a homozygous single nucleotide polymorphism at position 309 (T --> G) of mdm2, the complex is highly stable and cannot be disrupted by DNA damage, rendering p53 inactive.

Methods: To determine whether the p53 response phenotype is influenced differentially in cells with variable mdm2 genotypes, we compared responses to DNA damage and targeted p53-Mdm2 complex disruption by Nutlin-3 in the following wild-type p53 human cancer cell lines: A875 and CCF-STTG-1 (G/G for mdm2 SNP309), SJSA-1 (mdm2 genomic amplification and T/T for mdm2 SNP309), MCF-7 (estrogen-induced Mdm2 overexpression and T/G for mdm2 SNP309), ML-1 and H460 (T/T for mdm2 SNP309), and K562 (p53-null and T/G for mdm2 SNP309).