AI Article Synopsis
- Gastric cancer has a high mortality rate, and nintedanib has demonstrated effectiveness in reducing tumor cell growth and promoting cell death in gastric cancer cells, although its precise mechanism of action remains unclear.
- A study utilized high-throughput proteomics to investigate the effects of nintedanib on AGS gastric cancer cells, revealing 845 proteins with altered expression in response to nintedanib treatment, indicating significant biochemical changes.
- Bioinformatics analysis of these proteins highlighted critical metabolic pathways and identified key proteins, suggesting potential targets and mechanisms through which nintedanib exerts its effects, ultimately showing promise in inhibiting tumor progression.
Article Abstract
Background: Gastric cancer is a very common gastrointestinal tumor with a high mortality rate. Nintedanib has been shown to significantly reduce tumor cell proliferation and increase apoptosis in gastric cancer cells . However, its systemic action mechanism on gastric cancer cells remains unclear. A high-throughput proteomic approach should help identify the potential mechanisms and targets of nintedanib on gastric cancer cells.
Methods: The effects of nintedanib on the biological behavior of gastric cancer cells were evaluated. A cytotoxic proliferation assay was performed to estimate the half maximal inhibitory concentration (IC). AGS cells were divided into control, and nintedanib-treated groups (5 µM, 48 h), and differential protein expression was investigated using tandem mass tags (TMT) proteomics. The molecular mechanisms of these differentially expressed proteins and their network interactions were then analyzed using bioinformatics, and potential nintedanib targets were identified.
Results: This study identified 845 differentially expressed proteins in the nintedanib-treated group (compared to the control group), comprising 526 up-regulated and 319 down-regulated proteins. Bioinformatics analysis revealed that the differentially expressed proteins were primarily enriched in biological pathways for branched-chain amino acid metabolism, steroid biosynthesis, propionate metabolism, fatty acid metabolism, lysosome, peroxisome, and ferroptosis. Key driver analysis revealed that proteins, such as enoyl-CoA hydratase and 3-hydroxyacyl CoA dehydrogenase (EHHADH), isocitrate dehydrogenase 1 (IDH1), acyl-CoA oxidase 1 (ACOX1), acyl-CoA oxidase 2 (ACOX2), acyl-CoA oxidase 3 (ACOX3), and acetyl-CoA acyltransferase 1 (ACAA1) could be linked with nintedanib action.
Conclusion: Nintedanib inhibits the proliferation, invasion, and metastasis of gastric cancer cells. The crossover pathways and protein networks predicted by proteomics should provide more detailed molecular information enabling the use of nintedanib against gastric cancer.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10893871 | PMC |
| http://dx.doi.org/10.7717/peerj.16771 | DOI Listing |
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