Abstract
A plethora of studies suggest that the non-transformed cellular and non-cellular components of the tumor, collectively known as the tumor microenvironment, have a significant impact on the tumorigenic process. It was suggested that the microenvironment, which initially restricts tumor development, is recruited by the tumor and maintains a crosstalk that further promotes cancer progression. Indeed, many of the molecules that participate in the tumor–stroma crosstalk have been characterized. However, the crucial factors that are responsible for the initiation of this crosstalk or the ‘recruitment’ process remain poorly understood. We propose that oncogenes themselves may influence the ‘recruitment’ of the stromal cells, while focusing on mutant p53. Apart from losing its tumor-suppressing properties, mutant p53 gains novel oncogenic functions, a phenomenon dubbed mutant p53 gain of function (GOF). Here, we discuss possible ways in which mutant p53 may modulate the microenvironment in order to promote tumorigenesis. We thus propose that mutant p53 may serve as a key player in the modulation of the tumor–stroma crosstalk in a way that benefits the tumor. Further elucidation of these ‘recruitment’ processes, dictated by mutant p53, may be utilized for tailoring personalized therapeutic approaches for patients with tumors that harbor p53 mutation.
Highlights
Ample evidence suggests that various normal cellular and non-cellular components found adjacent to the tumor, known as the tumor microenvironment or tumor stroma, play a major modulating role in different stages of tumor development (Hanahan and Weinberg, 2011; Quail and Joyce, 2013)
The tumor microenvironment consists, among others, of a unique population of fibroblasts known as cancer-associated fibroblasts (CAFs), blood vessels, immune cells and mesenchymal stem cells
Though the aforementioned studies are consistent with the role of WT p53 as a tumor suppressor, a recent paper described a confounding finding, in which WT p53 seems to promote tumorpromoting functions of CAFs, suggesting that WT p53 may be implicated in the ‘education’ of stromal cells in the microenvironment (Arandkar et al, 2018)
Summary
Plausible candidates that may initiate the crosstalk between the tumor and the microenvironment are oncogenes, which may regulate the expression of genes and secreted factors that act in a non-cell autonomous manner. We suggest that it may be reasonable to consider mutant p53 as a potential regulator of factors that may affect stromal cells in a non-cell autonomous manner.
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