Abstract
African American (AA) breast cancer patients often have triple negative breast cancer (TNBC) that contains mutations in the TP53 gene. The point mutations at amino acid residues R273 and R248 both result in oncogenic gain-of-function (GOF) phenotypes. Expression of mutant p53 (mtp53) R273H associates with increased cell elasticity, survival under serum deprivation conditions, and increased Poly (ADP ribose) polymerase 1 (PARP1) on the chromatin in the AA-derived TNBC breast cancer cell line MDA-MB-468. We hypothesized that GOF mtp53 R248Q expression could stimulate a similar phenotype in the AA-derived TNBC cell line HCC70. To test this hypothesis we depleted the R248Q protein in the HCC70 cell line using shRNA-mediated knockdown. Using impedance-based real-time analysis we correlated the expression of mtp53 R248Q with increased cell deformability. We also documented that depletion of mtp53 R248Q increased PARP1 in the cytoplasm and decreased PARP1 on the chromatin. We conclude that in the AA-derived TNBC HCC70 cells mtp53 R248Q expression results in a causative tumor associated phenotype. This study supports using the biological markers of high expression of mtp53 R273H or R248Q as additional diagnostics for TNBC resistant subtypes often found in the AA community. Each mtp53 protein must be considered separately and this work adds R248Q to the increasing list of p53 mutations that can be used for diagnostics and drug targeting. Here we report that when R248Q mtp53 proteins are expressed in TNBC, then targeting the gain-of-function pathways may improve treatment efficacy.
Highlights
It is important to study the biology of triple negative breast cancer (TNBC) because it is a difficult-to-treat disease due to a lack of targetable biomarkers [1]
We recently reported a simple method for measuring cell deformability and reported increased deformability mediated by mtp53 R273H in an AA-derived breast cancer cell line (MDA-MB-468) [9]
We have shown that depletion of mutant p53 R248Q in the AA-derived cell line HCC70 decreased the elasticity of the breast cancer cells of a pool culture and one clonal cell line 5A1
Summary
It is important to study the biology of triple negative breast cancer (TNBC) because it is a difficult-to-treat disease due to a lack of targetable biomarkers [1]. The tumor suppressor protein p53 ( termed tumor protein 53, TP53) is mutated in more than 50 percent of human tumors [3]. In aggressive triple-negative sub-types of breast cancer the frequency of p53 mutations is 80 percent [4,5]. The p53 protein can be (1) wild-type; (2) loss-of-function mutant; (3) non-expressed due to a deletion; or (4) oncogenic gain-of-function (GOF) mutant. These GOF mtp proteins result from “hot spot” missense mutations that occur in many cancers [7]. When the mutant p53 is oncogenic GOF, there is the possibility of being
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