Twist alters the breast tumor microenvironment via choline kinase to facilitate an aggressive phenotype

Farhad Vesuna, Marie France Penet, Noriko Mori, Zaver M. Bhujwalla, Venu Raman*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Twist (TWIST1) is a gene required for cell fate specification in embryos and its expression in mammary epithelium can initiate tumorigenesis through the epithelial-mesenchymal transition. To identify downstream target genes of Twist in breast cancer, we performed microarray analysis on the transgenic breast cancer cell line, MCF-7/Twist. One of the targets identified was choline kinase whose upregulation resulted in increased cellular phosphocholine and total choline containing compounds—a characteristic observed in highly aggressive metastatic cancers. To study the interactions between Twist, choline kinase, and their effect on the microenvironment, we used 1H magnetic resonance spectroscopy and found significantly higher phosphocholine and total choline, as well as increased phosphocholine/glycerophosphocholine ratio in MCF-7/Twist cells. We also observed significant increases in extracellular glucose, lactate, and [H +] ion concentrations in the MCF-7/Twist cells. Magnetic resonance imaging of MCF-7/Twist orthotopic breast tumors showed a significant increase in vascular volume and permeability surface area product compared to control tumors. In addition, by reverse transcription—quantitative polymerase chain reaction, we discovered that Twist upregulated choline kinase expression in estrogen receptor negative breast cancer cell lines through FOXA1 downregulation. Moreover, using The Cancer Genome Atlas database, we observed a significant inverse relationship between FOXA1 and choline kinase expression and propose that it could act as a modulator of the Twist/choline kinase axis. The data presented indicate that Twist is a driver of choline kinase expression in breast cancer cells via FOXA1 resulting in the generation of an aggressive breast cancer phenotype.

Original languageEnglish
Pages (from-to)939-948
Number of pages10
JournalMolecular and Cellular Biochemistry
Volume478
Issue number4
DOIs
Publication statusPublished - Apr 2023

Keywords

  • Breast cancer
  • Cellular signaling
  • Magnetic resonance spectroscopy
  • Metastasis
  • Vascular permeability
  • Vascular volume

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