Molecular Medicine (Feb 2022)

When left does not seem right: epigenetic and bioelectric differences between left- and right-sided breast cancer

  • Masuelli Sofía,
  • Real Sebastián,
  • Campoy Emanuel,
  • María Teresita Branham,
  • Diego Matías Marzese,
  • Salomon Matthew,
  • Gerardo De Blas,
  • Arias Rodolfo,
  • Levin Michael,
  • Roqué María

DOI
https://doi.org/10.1186/s10020-022-00440-5
Journal volume & issue
Vol. 28, no. 1
pp. 1 – 16

Abstract

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Abstract Background During embryogenesis lateral symmetry is broken, giving rise to Left/Right (L/R) breast tissues with distinct identity. L/R-sided breast tumors exhibit consistently-biased incidence, gene expression, and DNA methylation. We postulate that a differential L/R tumor-microenvironment crosstalk generates different tumorigenesis mechanisms. Methods We performed in-silico analyses on breast tumors of public datasets, developed xenografted tumors, and conditioned MDA-MB-231 cells with L/R mammary extracts. Results We found L/R differential DNA methylation involved in embryogenic and neuron-like functions. Focusing on ion-channels, we discovered significant L/R epigenetic and bioelectric differences. Specifically, L-sided cells presented increased methylation of hyperpolarizing ion channel genes and increased Ca2+ concentration and depolarized membrane potential, compared to R-ones. Functional consequences were associated with increased proliferation in left tumors, assessed by KI67 expression and mitotic count. Conclusions Our findings reveal considerable L/R asymmetry in cancer processes, and suggest specific L/R epigenetic and bioelectric differences as future targets for cancer therapeutic approaches in the breast and many other paired organs.

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