Abstract
Over 80% of triple negative breast cancers express mutant p53. Mutant p53 often gains oncogenic function suggesting that triple negative breast cancers may be driven by p53 protein type. To determine the chromatin targets of this gain-of-function mutant p53 we used inducible knockdown of endogenous gain-of-function mtp53 in MDA-MB-468 cells in conjunction with stable isotope labeling with amino acids in cell culture and subcellular fractionation. We sequenced over 70,000 total peptides for each corresponding reciprocal data set and were able to identify 3010 unique cytoplasmic fraction proteins and 3403 unique chromatin fraction proteins. The present proteomics experiment corroborated our previous experiment-based results that poly ADP-ribose polymerase has a positive association with mutant p53 on the chromatin. Here, for the first time we report that the heterohexomeric minichromosome maintenance complex that participates in DNA replication initiation ranked as a high mutant p53-chromatin associated pathway. Enrichment analysis identified the minichromosome maintenance members 2–7. To validate this mutant p53- poly ADP-ribose polymerase-minichromosome maintenance functional axis, we experimentally depleted R273H mutant p53 and found a large reduction of the amount of minichromosome maintenance complex proteins on the chromatin. Furthermore a mutant p53-minichromosome maintenance 2 direct interaction was detected. Overexpressed mutant p53, but not wild type p53, showed a protein-protein interaction with minichromosome maintenance 2 and minichromosome maintenance 4. To target the mutant p53- poly ADP-ribose polymerase-minichromosome maintenance axis we treated cells with the poly ADP-ribose polymerase inhibitor talazoparib and the alkylating agent temozolomide and detected synergistic activation of apoptosis only in the presence of mutant p53. Furthermore when minichromosome maintenance 2–7 activity was inhibited the synergistic activation of apoptosis was blocked. This mutant p53- poly ADP-ribose polymerase -minichromosome maintenance axis may be useful for theranostics.
Highlights
Introduction(mtp53) protein with gain-of-function (GOF) properties that are associated with multiple types of cancers, including lung and breast cancer.[1] Mutations in p53 are found in 80% of triple negative breast cancers (TNBC).[2,3,4] A number of studies have been carried out to elucidate the mtp53-associated breast cancer transcriptome but the mtp53-targeted proteome is less well studied.[5,6,7,8] Mtp[53] has not been found to interact with DNA sitespecifically but has been found to interact with cancer cell DNA in association with other cofactors
Missense mutations in the TP53 gene often results in mutant p53(mtp53) protein with gain-of-function (GOF) properties that are associated with multiple types of cancers, including lung and breast cancer.[1]
Stable isotope labeling in cell culture (SILAC) of the MDA-MB-468. shp[53] cell line was carried out and mtp[53] R273H was depleted by inducible shRNA expression in two independent reciprocal experiments
Summary
(mtp53) protein with gain-of-function (GOF) properties that are associated with multiple types of cancers, including lung and breast cancer.[1] Mutations in p53 are found in 80% of triple negative breast cancers (TNBC).[2,3,4] A number of studies have been carried out to elucidate the mtp53-associated breast cancer transcriptome but the mtp53-targeted proteome is less well studied.[5,6,7,8] Mtp[53] has not been found to interact with DNA sitespecifically but has been found to interact with cancer cell DNA in association with other cofactors. Mtp[53] modifies chromatin structure to up-regulate vascular endothelial growth factor receptor 29,10 and GOF mtp[53] modifies major chromatin pathways by upregulating methyltransferase chromatin regulatory genes MLL1, MLL2, and the acetyltransferase MOZ.[11,12] While changes in the transcriptome are a part of the mechanism of action of GOF mtp[53], there are transcription-independent mtp[53] functions on chromatin that require further elucidation
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