The carcinogenic mechanism of benzo[a]pyrene (BaP) is far from being elucidated. FOXA1 has been confirmed to play an oncogenic role in BaP-transformed cell THBEc1. To explore the changes in amino acid metabolic patterns, especially glutamate-glutamine (Glu-Gln) metabolic pattern caused by BaP-induced transformation and the possible role FOXA1 might play in it, we compared amino acid metabolic characteristics between THBEc1 cells and control 16HBE cells using a targeted metabolomics method and determined the effects of FOXA1 knockout on the amino acid metabolic pattern using FOXA1 knockout cell THBEc1-ΔFOXA1-c34. The amino acid metabolic patterns of THBEc1 and 16HBE cells were different, which was manifested by the differential consumption of 18 amino acids and the difference in the intracellular content of 21 amino acids. The consumption and intracellular content of Glu and Gln are different between the two types of cells, accompanied by upregulation of FOXA1, GLUL, SLC1A3, SLC1A4, SLC1A5 and SLC6A14, and downregulation of FOXA2 and GPT2 in THBEc1 cells. FOXA1 knockout changed the consumption of 19 amino acids and the intracellular content of 21 amino acids and reversed the metabolic pattern of Glu and the changes in FOXA2, GLUL, SLC1A3 and SLC6A14 in THBEc1 cells. Additionally, FOXA1 knockout inhibited cell proliferation and further increased the dependence of THBEc1 cells on Glu. In conclusion, FOXA1 knockout partially reversed the change in Glu-Gln metabolism caused by BaP-induced transformation by upregulating the expression of GLUL and SLC1A3. Our findings provide a clue for the possible role of FOXA1 in amino acid metabolism regulation.
Keywords: Benzo[a]Pyrene; FOXA1; Glutamate-Glutamine Metabolic Change; Lung cancer; THBEc1 Cells.
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