Neural signaling modulates metabolism of gastric cancer

Tumors comprise cancer cells and the associated stromal and immune/inflammatory cells, i.e., tumor microenvironment (TME). Here, we identify a metabolic signature of human and mouse model of gastric cancer and show that vagotomy in the mouse model reverses the metabolic reprogramming, reflected by m...

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Veröffentlicht in:iScience 2021-02, Vol.24 (2), p.102091-102091, Article 102091
Hauptverfasser: Rabben, Hanne-Line, Andersen, Gøran Troseth, Olsen, Magnus Kringstad, Øverby, Anders, Ianevski, Aleksandr, Kainov, Denis, Wang, Timothy Cragin, Lundgren, Steinar, Grønbech, Jon Erik, Chen, Duan, Zhao, Chun-Mei
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Sprache:eng
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Zusammenfassung:Tumors comprise cancer cells and the associated stromal and immune/inflammatory cells, i.e., tumor microenvironment (TME). Here, we identify a metabolic signature of human and mouse model of gastric cancer and show that vagotomy in the mouse model reverses the metabolic reprogramming, reflected by metabolic switch from glutaminolysis to OXPHOS/glycolysis and normalization of the energy metabolism in cancer cells and TME. We next identify and validate SNAP25, mTOR, PDP1/α-KGDH, and glutaminolysis as drug targets and accordingly propose a therapeutic strategy to target the nerve-cancer metabolism. We demonstrate the efficacy of nerve-cancer metabolism therapy by intratumoral injection of BoNT-A (SNAP25 inhibitor) with systemic administration of RAD001 and CPI-613 but not cytotoxic drugs on overall survival in mice and show the feasibility in patients. These findings point to the importance of neural signaling in modulating the tumor metabolism and provide a rational basis for clinical translation of the potential strategy for gastric cancer. [Display omitted] •Metabolic reprogramming in gastric cancer cells and tumor microenvironment•SNAP25, mTOR, PDP1/α-KGDH, and glutaminolysis as potential drug targets•Combination of botulinum toxin type A, RAD001, and CPI-613 as a potential treatment Cancer; Cancer Systems Biology
ISSN:2589-0042
2589-0042
DOI:10.1016/j.isci.2021.102091