EBioMedicine (Apr 2023)

Metformin and simvastatin exert additive antitumour effects in glioblastoma via senescence-state: clinical and translational evidenceResearch in context

  • Antonio C. Fuentes-Fayos,
  • Miguel E. G-García,
  • Jesús M. Pérez-Gómez,
  • Antonio J. Montero-Hidalgo,
  • Julia Martín-Colom,
  • Carlos Doval-Rosa,
  • Cristóbal Blanco-Acevedo,
  • Encarnación Torres,
  • Álvaro Toledano-Delgado,
  • Rafael Sánchez-Sánchez,
  • Esther Peralbo-Santaella,
  • Rosa M. Ortega-Salas,
  • Juan M. Jiménez-Vacas,
  • Manuel Tena-Sempere,
  • Miguel López,
  • Justo P. Castaño,
  • Manuel D. Gahete,
  • Juan Solivera,
  • Raúl M. Luque

Journal volume & issue
Vol. 90
p. 104484

Abstract

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Summary: Background: Glioblastoma is one of the most devastating and incurable cancers due to its aggressive behaviour and lack of available therapies, being its overall-survival from diagnosis ∼14-months. Thus, identification of new therapeutic tools is urgently needed. Interestingly, metabolism-related drugs (e.g., metformin/statins) are emerging as efficient antitumour agents for several cancers. Herein, we evaluated the in vitro/in vivo effects of metformin and/or statins on key clinical/functional/molecular/signalling parameters in glioblastoma patients/cells. Methods: An exploratory-observational-randomized retrospective glioblastoma patient cohort (n = 85), human glioblastoma/non-tumour brain human cells (cell lines/patient-derived cell cultures), mouse astrocytes progenitor cell cultures, and a preclinical xenograft glioblastoma mouse model were used to measure key functional parameters, signalling-pathways and/or antitumour progression in response to metformin and/or simvastatin. Findings: Metformin and simvastatin exerted strong antitumour actions in glioblastoma cell cultures (i.e., proliferation/migration/tumoursphere/colony-formation/VEGF-secretion inhibition and apoptosis/senescence induction). Notably, their combination additively altered these functional parameters vs. individual treatments. These actions were mediated by the modulation of key oncogenic signalling-pathways (i.e., AKT/JAK-STAT/NF-κB/TGFβ-pathways). Interestingly, an enrichment analysis uncovered a TGFβ-pathway activation, together with AKT inactivation, in response to metformin + simvastatin combination, which might be linked to an induction of the senescence-state, the associated secretory-phenotype, and to the dysregulation of spliceosome components. Remarkably, the antitumour actions of metformin + simvastatin combination were also observed in vivo [i.e., association with longer overall-survival in human, and reduction in tumour-progression in a mouse model (reduced tumour-size/weight/mitosis-number, and increased apoptosis)]. Interpretation: Altogether, metformin and simvastatin reduce aggressiveness features in glioblastomas, being this effect significantly more effective (in vitro/in vivo) when both drugs are combined, offering a clinically relevant opportunity that should be tested for their use in humans. Funding: Spanish Ministry of Science, Innovation and Universities; Junta de Andalucía; CIBERobn (CIBER is an initiative of Instituto de Salud Carlos III, Spanish Ministry of Health, Social Services and Equality).

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