Molecular Cancer (Jan 2025)

Quantitative proteomic analysis unveils a critical role of VARS1 in hepatocellular carcinoma aggressiveness through the modulation of MAGI1 expression

  • Natalia Hermán-Sánchez,
  • Mercedes del Rio-Moreno,
  • Rubén Ciria,
  • Marina E. Sánchez-Frias,
  • Maite G. Fernández-Barrena,
  • Iker Uriarte,
  • Eduardo Chicano-Galvez,
  • Ignacio Ortea,
  • Ángela Peralbo-Molina,
  • Javier Briceño,
  • Matías A. Avila,
  • Manuel Rodríguez-Perálvarez,
  • Raúl M. Luque,
  • Juan L. López-Cánovas,
  • Manuel D. Gahete

DOI
https://doi.org/10.1186/s12943-024-02206-5
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 16

Abstract

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Abstract Background Hepatocellular carcinoma (HCC) genetic/transcriptomic signatures have been widely described. However, its proteomic characterization is incomplete. We performed non-targeted quantitative proteomics of HCC samples and explored its clinical, functional, and molecular consequences. Methods Non-targeted quantitative proteomics were performed on cytosolic and nuclear fractions of liver samples [HCC vs. non-tumour adjacent tissue (NTAT), n = 42 patients]. Changes were confirmed in 7 in silico HCC cohorts. Functional and molecular implications were evaluated on HCC-derived cell lines after silencing/overexpressing VARS1 and/or MAGI1. VARS1-overexpressing Hep3B cells were used for in vivo studies [Extreme Limiting Dilution Assay (ELDA) and orthotopic tumour formation]. Quantitative proteomics were performed on VARS1-overexpressing HCC cell lines. Results Quantitative proteomics revealed the dysregulation of the cytosolic and nuclear proteomes in HCC, and defined two proteomic HCC subgroups, the most aggressive associated to the dysregulation of the aminoacyl-tRNA synthetases (ARSs). ARSs dysregulation was corroborated in in silico HCC cohorts and associated to poor prognosis. Patients with ARSs upregulation had genomic/transcriptomic characteristics of the proliferative HCC. Valine tRNA-aminoacyl synthetase (VARS1) was the ARSs most consistently overexpressed and associated to aggressiveness. VARS1 modulation (silencing/overexpression) altered tumour establishment-associated parameters in vitro and/or in vivo. Quantitative proteomics on cells overexpressing VARS1 and rescue experiments identified the downregulation of MAGI1, a tumour suppressor in HCC, as a mediator of VARS1 function. Conclusions Quantitative proteomics defines two prognosis-related proteomic HCC subgroups. ARSs machinery is dysregulated in the aggressive subgroup, bearing potential as prognostic biomarkers. VARS1 promotes aggressiveness through the modulation of MAGI1, representing a novel targetable vulnerability in HCC.

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