Colorectal cancer (CRC) represents a significant global health burden, contributing significantly to cancer-related mortality. The underlying genetic and metabolic underpinnings of CRC remain incompletely understood. In this study, we conducted a comprehensive investigation into metabolic perturbations in 29 CRC patients utilizing targeted omics approaches, compared to public databases. Additionally, we examined serum and tissue samples from 12 patients, with and without preoperative glucose challenge, using targeted metabolomics to investigate glucose and fructose metabolism. Notably, elevated levels of serum D-Fructose and L-Lactic acid following glucose administration indicate augmented glycolytic activity and polyol pathway-mediated glucose conversion (to fructose). Despite variations in tumor responses, our results underscore the potential significance of fructose metabolism in CRC progression, shedding light on therapeutic avenues targeting the Warburg effect. This research lays a solid foundation for future translational research into metabolic interventions in CRC treatment and enhances our understanding of cancer-related metabolic reprogramming
Sica, G.s., Bischof, J., Funke, L., Hartmut, J., Candi, E., Mauriello, A., et al. (2025). Evidence of fructose metabolism in colorectal cancer. CELL DEATH DISCOVERY, 11(1), 1-11 [10.1038/s41420-025-02745-w].
Evidence of fructose metabolism in colorectal cancer
Candi, Eleonora;Mauriello, Alessandro;Scimeca, Manuel;Savino, Luca;Servadei, Francesca;
2025-10-16
Abstract
Colorectal cancer (CRC) represents a significant global health burden, contributing significantly to cancer-related mortality. The underlying genetic and metabolic underpinnings of CRC remain incompletely understood. In this study, we conducted a comprehensive investigation into metabolic perturbations in 29 CRC patients utilizing targeted omics approaches, compared to public databases. Additionally, we examined serum and tissue samples from 12 patients, with and without preoperative glucose challenge, using targeted metabolomics to investigate glucose and fructose metabolism. Notably, elevated levels of serum D-Fructose and L-Lactic acid following glucose administration indicate augmented glycolytic activity and polyol pathway-mediated glucose conversion (to fructose). Despite variations in tumor responses, our results underscore the potential significance of fructose metabolism in CRC progression, shedding light on therapeutic avenues targeting the Warburg effect. This research lays a solid foundation for future translational research into metabolic interventions in CRC treatment and enhances our understanding of cancer-related metabolic reprogramming| File | Dimensione | Formato | |
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