Journal of Experimental & Clinical Cancer Research (Mar 2023)

A diagnostic circulating miRNA signature as orchestrator of cell invasion via TKS4/TKS5/EFHD2 modulation in human gliomas

  • Ana Belén Díaz Méndez,
  • Andrea Sacconi,
  • Elisa Tremante,
  • Valentina Lulli,
  • Valentina Caprara,
  • Laura Rosanò,
  • Frauke Goeman,
  • Mariantonia Carosi,
  • Marta Di Giuliani,
  • Giulia Vari,
  • Antonio Silvani,
  • Bianca Pollo,
  • Carlo Garufi,
  • Sara Ramponi,
  • Giorgia Simonetti,
  • Emilio Ciusani,
  • Chiara Mandoj,
  • Stefano Scalera,
  • Veronica Villani,
  • Agnese Po,
  • Elisabetta Ferretti,
  • Giulia Regazzo,
  • Maria Giulia Rizzo

DOI
https://doi.org/10.1186/s13046-023-02639-8
Journal volume & issue
Vol. 42, no. 1
pp. 1 – 15

Abstract

Read online

Abstract Background Altered microRNA profiles have been observed not only in tumour tissues but also in biofluids, where they circulate in a stable form thus representing interesting biomarker candidates. This study aimed to identify a microRNA signature as a non-invasive biomarker and to investigate its impact on glioma biology. Methods MicroRNAs were selected using a global expression profile in preoperative serum samples from 37 glioma patients. Comparison between serum samples from age and gender-matched controls was performed by using the droplet digital PCR. The ROC curve and Kaplan-Meier survival analyses were used to evaluate the diagnostic/prognostic values. The functional role of the identified signature was assessed by gain/loss of function strategies in glioma cells. Results A three-microRNA signature (miR-1-3p/−26a-1-3p/−487b-3p) was differentially expressed in the serum of patients according to the isocitrate dehydrogenase (IDH) genes mutation status and correlated with both patient Overall and Progression Free Survival. The identified signature was also downregulated in the serum of patients compared to controls. Consistent with these results, the signature expression and release in the conditioned medium of glioma cells was lower in IDH-wild type cells compared to the mutated counterpart. Furthermore, in silico analysis of glioma datasets showed a consistent deregulation of the signature according to the IDH mutation status in glioma tumour tissues. Ectopic expression of the signature negatively affects several glioma functions. Notably, it impacts the glioma invasive phenotype by directly targeting the invadopodia-related proteins TKS4, TKS5 and EFHD2. Conclusions We identified a three microRNA signature as a promising complementary or even an independent non-invasive diagnostic/prognostic biomarker. The signature displays oncosuppressive functions in glioma cells and impacts on proteins crucial for migration and invasion, providing potential targets for therapeutic intervention.

Keywords