Signalling Architectures Can Prevent Cancer Evolution

Overview

Journal Sci Rep

Specialty Science

Date 2020 Jan 22

PMID 31959809

Citations 1

Authors

Leonardo Ona

Michael Lachmann

Affiliations

Soon will be listed here.

Abstract

Cooperation between cells in multicellular organisms is preserved by an active regulation of growth through the control of cell division. Molecular signals used by cells for tissue growth are usually present during developmental stages, angiogenesis, wound healing and other processes. In this context, the use of molecular signals triggering cell division is a puzzle, because any molecule inducing and aiding growth can be exploited by a cancer cell, disrupting cellular cooperation. A significant difference is that normal cells in a multicellular organism have evolved in competition between high-level organisms to be altruistic, being able to send signals even if it is to their detriment. Conversely, cancer cells evolve their abuse over the cancer's lifespan by out-competing their neighbours. A successful mutation leading to cancer must evolve to be adaptive, enabling a cancer cell to send a signal that results in higher chances to be selected. Using a mathematical model of such molecular signalling mechanism, this paper argues that a signal mechanism would be effective against abuse by cancer if it affects the cell that generates the signal as well as neighbouring cells that would receive a benefit without any cost, resulting in a selective disadvantage for a cancer signalling cell. We find that such molecular signalling mechanisms normally operate in cells as exemplified by growth factors. In scenarios of global and local competition between cells, we calculate how this process affects the fixation probability of a mutant cell generating such a signal, and find that this process can play a key role in limiting the emergence of cancer.

Citing Articles

Insights into Growth Factors in Liver Carcinogenesis and Regeneration: An Ongoing Debate on Minimizing Cancer Recurrence after Liver Resection.

Alvarez-Mercado A, Caballeria-Casals A, Rojano-Alfonso C, Chavez-Reyes J, Mico-Carnero M, Sanchez-Gonzalez A Biomedicines. 2021; 9(9).

PMID: 34572344 PMC: 8470173. DOI: 10.3390/biomedicines9091158.

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