Anti-VEGF therapy selects for clones resistant to glucose starvation in ovarian cancer xenografts

Autor: Daniele Boso, Martina Tognon, Matteo Curtarello, Sonia Minuzzo, Ilaria Piga, Valentina Brillo, Elisabetta Lazzarini, Jessica Carlet, Ludovica Marra, Chiara Trento, Andrea Rasola, Ionica Masgras, Leonardo Caporali, Fabio Del Ben, Giulia Brisotto, Matteo Turetta, Roberta Pastorelli, Laura Brunelli, Filippo Navaglia, Giovanni Esposito, Angela Grassi, Stefano Indraccolo
Jazyk: angličtina
Rok vydání: 2023
Předmět:
Zdroj: Journal of Experimental & Clinical Cancer Research, Vol 42, Iss 1, Pp 1-19 (2023)
Druh dokumentu: article
ISSN: 1756-9966
DOI: 10.1186/s13046-023-02779-x
Popis: Abstract Background Genetic and metabolic heterogeneity are well-known features of cancer and tumors can be viewed as an evolving mix of subclonal populations, subjected to selection driven by microenvironmental pressures or drug treatment. In previous studies, anti-VEGF therapy was found to elicit rewiring of tumor metabolism, causing marked alterations in glucose, lactate ad ATP levels in tumors. The aim of this study was to evaluate whether differences in the sensitivity to glucose starvation existed at the clonal level in ovarian cancer cells and to investigate the effects induced by anti-VEGF therapy on this phenotype by multi-omics analysis. Methods Clonal populations, obtained from both ovarian cancer cell lines (IGROV-1 and SKOV3) and tumor xenografts upon glucose deprivation, were defined as glucose deprivation resistant (GDR) or glucose deprivation sensitive (GDS) clones based on their in vitro behaviour. GDR and GDS clones were characterized using a multi-omics approach, including genetic, transcriptomic and metabolic analysis, and tested for their tumorigenic potential and reaction to anti-angiogenic therapy. Results Two clonal populations, GDR and GDS, with strikingly different viability following in vitro glucose starvation, were identified in ovarian cancer cell lines. GDR clones survived and overcame glucose starvation-induced stress by enhancing mitochondrial oxidative phosphorylation (OXPHOS) and both pyruvate and lipids uptake, whereas GDS clones were less able to adapt and died. Treatment of ovarian cancer xenografts with the anti-VEGF drug bevacizumab positively selected for GDR clones that disclosed increased tumorigenic properties in NOD/SCID mice. Remarkably, GDR clones were more sensitive than GDS clones to the mitochondrial respiratory chain complex I inhibitor metformin, thus suggesting a potential therapeutic strategy to target the OXPHOS-metabolic dependency of this subpopulation. Conclusion A glucose-deprivation resistant population of ovarian cancer cells showing druggable OXPHOS-dependent metabolic traits is enriched in experimental tumors treated by anti-VEGF therapy.
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