Formate promotes invasion and metastasis in reliance on lipid metabolism
Delbrouck C., Kiweler N., Chen O., Pozdeev V.I., Haase L., Neises L., Oudin A., Fouquier d'Hérouël A., Shen R., Schlicker L., Halder R., Lesur A., Schuster A., Lorenz N.I., Jaeger C., Feucherolles M., Frache G., Szpakowska M., Chevigne A., Ronellenfitsch M.W., Moussay E., Piraud M., Skupin A., Schulze A., Niclou S.P., Letellier E., Meiser J.
Cell Reports, vol. 42, n° 9, art. no. 113034, 2023
Metabolic rewiring is essential for cancer onset and progression. We previously showed that one-carbon metabolism-dependent formate production often exceeds the anabolic demand of cancer cells, resulting in formate overflow. Furthermore, we showed that increased extracellular formate concentrations promote the in vitro invasiveness of glioblastoma cells. Here, we substantiate these initial observations with ex vivo and in vivo experiments. We also show that exposure to exogeneous formate can prime cancer cells toward a pro-invasive phenotype leading to increased metastasis formation in vivo. Our results suggest that the increased local formate concentration within the tumor microenvironment can be one factor to promote metastases. Additionally, we describe a mechanistic interplay between formate-dependent increased invasiveness and adaptations of lipid metabolism and matrix metalloproteinase activity. Our findings consolidate the role of formate as pro-invasive metabolite and warrant further research to better understand the interplay between formate and lipid metabolism.
doi:10.1016/j.celrep.2023.113034