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Chronic arsenic exposure induces malignant transformation of human HaCaT cells through both deterministic and stochastic changes in transcriptome expression.

Authors :
Banerjee, Mayukh
Srivastava, Sudhir
Rai, Shesh N.
States, J. Christopher
Source :
Toxicology & Applied Pharmacology. Mar2024, Vol. 484, pN.PAG-N.PAG. 1p.
Publication Year :
2024

Abstract

Biological processes are inherently stochastic, i.e., are partially driven by hard to predict random probabilistic processes. Carcinogenesis is driven both by stochastic and deterministic (predictable non-random) changes. However, very few studies systematically examine the contribution of stochastic events leading to cancer development. In differential gene expression studies, the established data analysis paradigms incentivize expression changes that are uniformly different across the experimental versus control groups, introducing preferential inclusion of deterministic changes at the expense of stochastic processes that might also play a crucial role in the process of carcinogenesis. In this study, we applied simple computational techniques to quantify: (i) The impact of chronic arsenic (iAs) exposure as well as passaging time on stochastic gene expression and (ii) Which genes were expressed deterministically and which were expressed stochastically at each of the three stages of cancer development. Using biological coefficient of variation as an empirical measure of stochasticity we demonstrate that chronic iAs exposure consistently suppressed passaging related stochastic gene expression at multiple time points tested, selecting for a homogenous cell population that undergo transformation. Employing multiple balanced removal of outlier data, we show that chronic iAs exposure induced deterministic and stochastic changes in the expression of unique set of genes, that populate largely unique biological pathways. Together, our data unequivocally demonstrate that both deterministic and stochastic changes in transcriptome-wide expression are critical in driving biological processes, pathways and networks towards clonal selection, carcinogenesis, and tumor heterogeneity. [Display omitted] • Role of stochastic gene expression in carcinogenesis is rarely evaluated. • Stochastic gene expression can be studied using simple statistical tools. • Chronic iAs exposure suppressed passaging related stochastic gene expression. • Stochastic and deterministic differential gene expression populates unique pathways. • Stochastic gene expression is a driver of clonal selection and carcinogenesis. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
0041008X
Volume :
484
Database :
Academic Search Index
Journal :
Toxicology & Applied Pharmacology
Publication Type :
Academic Journal
Accession number :
176071060
Full Text :
https://doi.org/10.1016/j.taap.2024.116865