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Mutually exclusive mutation profiles define functionally related genes in muscle invasive bladder cancer

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  • Ami G Sangster
  • Robert J Gooding
  • Andrew Garven
  • Hamid Ghaedi
  • David M Berman
  • Scott K Davey

Abstract

Muscle Invasive bladder cancer is known to have an abundance of mutations, particularly in DNA damage response and chromatin modification genes. The role of these mutations in the development and progression of the disease is not well understood. However, a mutually exclusive mutation pattern between gene pairs could suggest gene mutations of significance. For example, a mutually exclusive mutation pattern could suggest an epistatic relationship where the outcome of a mutation in one gene would have the same outcome as a mutation in a different gene. The significance of a mutually exclusive relationship was determined by establishing a normal distribution of the conditional probabilities for having a mutation in one gene and not the other as well as the reverse relationship for each gene pairing. Then these distributions were used to determine the sigma–magnitude of standard deviation by which the observed value differed from the expected, a value that can also be interpreted as the ‘p-value’. This approach led to the identification of mutually exclusive mutation patterns in KDM6A and KMT2D as well as KDM6A and RB1 that suggested the observed mutation pattern did not happen by chance. Upon further investigation of these genes and their interactions, a potential similar outcome was identified that supports the concept of epistasis. Knowledge of these mutational interactions provides a better understanding of the mechanisms underlying muscle invasive bladder cancer development, and may direct therapeutic development exploiting genotoxic chemotherapy and synthetic lethality in these pathways.

Suggested Citation

  • Ami G Sangster & Robert J Gooding & Andrew Garven & Hamid Ghaedi & David M Berman & Scott K Davey, 2022. "Mutually exclusive mutation profiles define functionally related genes in muscle invasive bladder cancer," PLOS ONE, Public Library of Science, vol. 17(1), pages 1-17, January.
  • Handle: RePEc:plo:pone00:0259992
    DOI: 10.1371/journal.pone.0259992
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    References listed on IDEAS

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    1. Michael S. Lawrence & Petar Stojanov & Paz Polak & Gregory V. Kryukov & Kristian Cibulskis & Andrey Sivachenko & Scott L. Carter & Chip Stewart & Craig H. Mermel & Steven A. Roberts & Adam Kiezun & Pe, 2013. "Mutational heterogeneity in cancer and the search for new cancer-associated genes," Nature, Nature, vol. 499(7457), pages 214-218, July.
    2. Christopher J. Lord & Alan Ashworth, 2012. "The DNA damage response and cancer therapy," Nature, Nature, vol. 481(7381), pages 287-294, January.
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