PLoS ONE (Jan 2016)

Identification of a Tumor Specific, Active-Site Mutation in Casein Kinase 1α by Chemical Proteomics.

  • Eric S Okerberg,
  • Anna Hainley,
  • Heidi Brown,
  • Arwin Aban,
  • Senait Alemayehu,
  • Ann Shih,
  • Jane Wu,
  • Matthew P Patricelli,
  • John W Kozarich,
  • Tyzoon Nomanbhoy,
  • Jonathan S Rosenblum

DOI
https://doi.org/10.1371/journal.pone.0152934
Journal volume & issue
Vol. 11, no. 3
p. e0152934

Abstract

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We describe the identification of a novel, tumor-specific missense mutation in the active site of casein kinase 1α (CSNK1A1) using activity-based proteomics. Matched normal and tumor colon samples were analyzed using an ATP acyl phosphate probe in a kinase-targeted LC-MS2 platform. An anomaly in the active-site peptide from CSNK1A1 was observed in a tumor sample that was consistent with an altered catalytic aspartic acid. Expression and analysis of the suspected mutant verified the presence of asparagine in the probe-labeled, active-site peptide for CSNK1A1. Genomic sequencing of the colon tumor samples confirmed the presence of a missense mutation in the catalytic aspartic acid of CSNK1A1 (GAC→AAC). To our knowledge, the D163N mutation in CSNK1A1 is a newly defined mutation to the conserved, catalytic aspartic acid of a protein kinase and the first missense mutation identified using activity-based proteomics. The tumorigenic potential of this mutation remains to be determined.