RESUMEN
Aim: Breast cancer has been a leading cause of mortality among women worldwide in recent years. Targeting the lysophosphatidic acid (LPA)-LPA1 pathway using small molecules could improve breast cancer therapy. Materials & methods: Thiazolidin-4-ones were developed and tested on MCF-7 cancer cells, and active compounds were analyzed for their effects on apoptosis, migration angiogenesis and LPA1 protein and gene expression. Results & conclusion: Compounds TZ-4 and TZ-6 effectively reduced the migration of MCF-7 cells, and induced apoptosis. TZ-4, TZ-6, TZ-8 and TZ-14 significantly reduced the LPA1 protein, LPA1 and angiogenesis gene expression in treated MCF-7 cells. Molecular docking and molecular dynamic simulation studies reveal the ligand interactions and stability of the LPA1-ligand complex. Developed thiazolidin-4-ones showed great potential as an LPA1-targeted approach to combating breast cancer.
Breast cancer is a major cause of death for women worldwide. Using small molecules to target the lysophosphatidic acid (LPA)LPA1 pathway could improve breast cancer treatment. We tested a type of molecule called thiazolidin-4-ones on breast cancer cells in the lab. We looked at how these molecules affected cell death, movement, blood vessel growth and the activity of the LPA1 gene and protein. Some of these molecules, such as TZ-4 and TZ-6, reduced the movement of cancer cells and caused them to die. They also decreased the levels of LPA1 protein and gene activity in the cells. We used computer simulations to see how these molecules interacted with the LPA1 protein. Our findings suggest that thiazolidin-4-ones could be a promising treatment for breast cancer by targeting LPA1.