Author:
Bortel Patricia,Hagn Gerhard,Skos Lukas,Bileck Andrea,Paulitschke Verena,Paulitschke Philipp,Gleiter Lion,Mohr Thomas,Gerner Christopher,Meier-Menches Samuel M.
Abstract
AbstractMass spectrometry-based omics technologies are increasingly used to map drug effects to biological pathways by identifying significant molecular events. Significance is influenced by the effect size and the variation of each molecular parameter. While the former is largely determined by the biological system, the latter can be tuned by the experimental workflow. Here, we unequivocally show that memory effects originating from subculture of colon carcinoma cells before treating with arsenic trioxide exacerbate the variation of multiple omics levels, including eicosadomics, proteomics and phosphoproteomics, without necessarily impacting on effect size. Real-time monitoring of individual samples enables control over subculture homogeneity and improves the median variation >2-fold across omics levels. This considerably facilitated mode of action deconvolution and resulted in a bilevel perturbation network of 321 causal conjectures. Controlling memory effects from subculture revealed key signaling cascades and transcriptional regulatory events that extend the molecular understanding of arsenic trioxide in solid tumors.
Publisher
Cold Spring Harbor Laboratory
Cited by
2 articles.
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