Multi-Omics Analysis Revealed Increased De Novo Synthesis of Serine and Lower Activity of the Methionine Cycle in Breast Cancer Cell Lines.
Monika Pankevičiūtė-BukauskienėValeryia MikalayevaVaidotas ŽvikasV Arvydas SkeberdisSergio BordelPublished in: Molecules (Basel, Switzerland) (2023)
A pipeline for metabolomics, based on UPLC-ESI-MS, was tested on two malignant breast cancer cell lines of the sub-types ER(+), PR(+), and HER2(3+) (MCF-7 and BCC), and one non-malignant epithelial cancer cell line (MCF-10A). This allowed us to quantify 33 internal metabolites, 10 of which showed a concentration profile associated with malignancy. Whole-transcriptome RNA-seq was also carried out for the three mentioned cell lines. An integrated analysis of metabolomics and transcriptomics was carried out using a genome-scale metabolic model. Metabolomics revealed the depletion of several metabolites that have homocysteine as a precursor, which was consistent with the lower activity of the methionine cycle caused by lower expression of the AHCY gene in cancer cell lines. Increased intracellular serine pools in cancer cell lines appeared to result from the over-expression of PHGDH and PSPH, which are involved in intracellular serine biosynthesis. An increased concentration of pyroglutamic acid in malignant cells was linked to the overexpression of the gene CHAC1.
Keyphrases
- single cell
- rna seq
- papillary thyroid
- ms ms
- mass spectrometry
- genome wide
- poor prognosis
- squamous cell
- breast cancer cells
- multiple sclerosis
- copy number
- squamous cell carcinoma
- childhood cancer
- protein kinase
- cell cycle arrest
- cell death
- data analysis
- pi k akt
- reactive oxygen species
- liquid chromatography
- oxidative stress
- simultaneous determination
- amino acid