Abstract
Mutations in the tumor suppressor p53 are the most frequent alterations in human cancer. These mutations include p53-inactivating mutations as well as oncogenic gain-of-function (GOF) mutations that endow p53 with capabilities to promote tumor progression. A primary challenge in cancer therapy is targeting stemness features and cancer stem cells (CSC) that account for tumor initiation, metastasis, and cancer relapse. Here we show that in vitro cultivation of tumors derived from mutant p53 murine bone marrow mesenchymal stem cells (MSC) gives rise to aggressive tumor lines (TL). These MSC-TLs exhibited CSC features as displayed by their augmented oncogenicity and high expression of CSC markers. Comparative analyses between MSC-TL with their parental mutant p53 MSC allowed for identification of the molecular events underlying their tumorigenic properties, including an embryonic stem cell (ESC) gene signature specifically expressed in MSC-TLs. Knockout of mutant p53 led to a reduction in tumor development and tumorigenic cell frequency, which was accompanied by reduced expression of CSC markers and the ESC MSC-TL signature. In human cancer, MSC-TL ESC signature-derived genes correlated with poor patient survival and were highly expressed in human tumors harboring p53 hotspot mutations. These data indicate that the ESC gene signature-derived genes may serve as new stemness-based prognostic biomarkers as well as novel cancer therapeutic targets.Significance: Mesenchymal cancer stem cell-like cell lines express a mutant p53-dependent embryonic stem cell gene signature, which can serve as a potential prognostic biomarker and therapeutic target in cancer. Cancer Res; 78(20); 5833-47. ©2018 AACR.
Highlights
Tumor development is a multistage process that is accompanied by gradual gain of intratumoral heterogeneity [1, 2]
We found that mesenchymal stem cells (MSC)-tumor lines (TL) express elevated levels of cancer stem cells (CSC) markers and a unique gene signature consisting of embryonic stem cell (ESC) genes
Data for the survival analyses were downloaded from The Cancer Genome Atlas (TCGA) via "Xena." We examined whether the combined expression of each possible gene pair from the human orthologs of the MSC-TL ESC gene list, affected patient survival by Cox proportional-hazards model via the R package "survival." We classified the expression level per gene per sample as "high" or "low," using median of each gene value as cutoff
Summary
Tumor development is a multistage process that is accompanied by gradual gain of intratumoral heterogeneity [1, 2]. We found that MSC-TLs express elevated levels of CSC markers and a unique gene signature consisting of embryonic stem cell (ESC) genes These results suggest that MSC-TLs may represent a mesenchymal CSC-like population that reside within mutant p53 MSC–derived tumors. Our data suggest a novel role of mutant p53 in expanding mesenchymal CSC-like cells that display expression of a unique mutant p53–dependent gene signature comprising of ESC genes The fact that this mesenchymal CSC–like signature contains embryonic genes, which are not tissue specific, might suggests that these signature-derived genes may serve as prognostic markers and potential cancer stemness therapeutic targets of mutant p53–dependent tumors and tumors at large
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