The transcriptomic classification of glioblastoma (GBM) has failed to predict survival and therapeutic vulnerabilities. A computational approach for unbiased identification of core biological traits of single cells and bulk tumors uncovered four tumor cell states and GBM subtypes distributed along neurodevelopmental and metabolic axes, classified as proliferative/progenitor, neuronal, mitochondrial and glycolytic/plurimetabolic. Each subtype was enriched with biologically coherent multiomic features. Mitochondrial GBM was associated with the most favorable clinical outcome. It relied exclusively on oxidative phosphorylation for energy production, whereas the glycolytic/plurimetabolic subtype was sustained by aerobic glycolysis and amino acid and lipid metabolism. Deletion of the glucose-proton symporter SLC45A1 was the truncal alteration most significantly associated with mitochondrial GBM, and the reintroduction of SLC45A1 in mitochondrial glioma cells induced acidification and loss of fitness. Mitochondrial, but not glycolytic/plurimetabolic, GBM exhibited marked vulnerability to inhibitors of oxidative phosphorylation. The pathway-based classification of GBM informs survival and enables precision targeting of cancer metabolism.

Pathway-based classification of glioblastoma uncovers a mitochondrial subtype with therapeutic vulnerabilities / Garofano, L.; Migliozzi, S.; Oh, Y. T.; D'Angelo, F.; Najac, R. D.; Ko, A.; Frangaj, B.; Caruso, F. P.; Yu, K.; Yuan, J.; Zhao, W.; Luisa Di Stefano, A.; Bielle, F.; Jiang, T.; Sims, P.; Suva, M. L.; Tang, F.; Su, X. -D.; Ceccarelli, M.; Sanson, M.; Lasorella, A.; Iavarone, A.. - In: NATURE CANCER. - ISSN 2662-1347. - 2:2(2021), pp. 141-156. [10.1038/s43018-020-00159-4]

Pathway-based classification of glioblastoma uncovers a mitochondrial subtype with therapeutic vulnerabilities

Garofano L.
Primo
;
Ceccarelli M.;
2021

Abstract

The transcriptomic classification of glioblastoma (GBM) has failed to predict survival and therapeutic vulnerabilities. A computational approach for unbiased identification of core biological traits of single cells and bulk tumors uncovered four tumor cell states and GBM subtypes distributed along neurodevelopmental and metabolic axes, classified as proliferative/progenitor, neuronal, mitochondrial and glycolytic/plurimetabolic. Each subtype was enriched with biologically coherent multiomic features. Mitochondrial GBM was associated with the most favorable clinical outcome. It relied exclusively on oxidative phosphorylation for energy production, whereas the glycolytic/plurimetabolic subtype was sustained by aerobic glycolysis and amino acid and lipid metabolism. Deletion of the glucose-proton symporter SLC45A1 was the truncal alteration most significantly associated with mitochondrial GBM, and the reintroduction of SLC45A1 in mitochondrial glioma cells induced acidification and loss of fitness. Mitochondrial, but not glycolytic/plurimetabolic, GBM exhibited marked vulnerability to inhibitors of oxidative phosphorylation. The pathway-based classification of GBM informs survival and enables precision targeting of cancer metabolism.
2021
Pathway-based classification of glioblastoma uncovers a mitochondrial subtype with therapeutic vulnerabilities / Garofano, L.; Migliozzi, S.; Oh, Y. T.; D'Angelo, F.; Najac, R. D.; Ko, A.; Frangaj, B.; Caruso, F. P.; Yu, K.; Yuan, J.; Zhao, W.; Luisa Di Stefano, A.; Bielle, F.; Jiang, T.; Sims, P.; Suva, M. L.; Tang, F.; Su, X. -D.; Ceccarelli, M.; Sanson, M.; Lasorella, A.; Iavarone, A.. - In: NATURE CANCER. - ISSN 2662-1347. - 2:2(2021), pp. 141-156. [10.1038/s43018-020-00159-4]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/844571
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