The present study aimed to investigate the anti-cancer activity of imidazo[1,2-a]pyridine 5–7 in the A375 and WM115 melanoma and HeLa cervical cancer cell lines. The viability of cancer cells was analyzed by the MTT assay. Apoptosis was quantified by flow cytometry following staining of the cells with AnnexinV/propidium iodide (PI). The cell cycle was evaluated by flow cytometry after staining of cells with PI. The three compounds inhibited the proliferation of all cells for half maximal inhibitory concentration ranging from 9.7 to 44.6 µM following 48-h treatment. In addition, all cancer cells were more sensitive to compound 6 compared with the other compounds. Treatment with compound 6 induced G
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/M cell cycle arrest and a significant increased level of intrinsic apoptosis in all tested cells. Furthermore, compound 6 reduced the levels of phospho (p)-protein kinase B and p-mechanistic target of rapamycin, and increased levels of the cell cycle inhibitors p53 and p21 and of the apoptosis-associated proteins BCL2 associated X protein and active caspase-9. Silencing p53 in A375 melanoma cells reduced compound 6-induced apoptosis, which suggested that compound 6 may induce p53-partially mediated apoptosis. These results demonstrated that imidazo[1,2-a]pyridines 5–7 are potential effective compounds in the treatment of melanoma and cervical cancers.
Abstract:Five aldimine derivatives were prepared by condensation of the appropriate amine with salicylaldehyde (m1-m4) and 4-aminobenzoic acid with 2-thiophene carboxaldehyde (m5). A molar ratio of 1:1 was used and the mixture was refluxed in ethanol for 2 h to obtain the corresponding aldimine derivative. These derivatives were used as photosensitizers for dye-sensitized solar cells (DSSCs). The best performance was obtained for the DSSC sensitized with 2-(2-hydroxybenzylideneamino)benzoic acid, for which a short-circuit current of 2.86 mA/cm2 , an open-circuit voltage of 0.562 V, and an efficiency of 0.575% were obtained.
Background: Anticancer drugs confront clinical obstacles such as drug resistance and adverse effects. Imidazo[1,2-a] pyridines (IPs) compounds have lately gained considerable interest as possible anticancer therapeutics due to their potent inhibitory function against cancers cells. This study was to determine the anticancer activities of three novel IPs (IP-5, IP-6, and IP-7) against the HCC1937 breast cancer cell line in vitro. Materials and Methods: The cytotoxic and anti-proliferative effects of IPs compounds in HCC1937 cells were determined by cell viability (MTT) assay, trypan blue assay, and clonogenic survival assay. Scratch motility assay was used to test the antimigration ability of the IPs. Western blot analysis was carried out to detect the level of apoptosis and cell cycle protein markers and to understand the mechanism of action of IPs compounds. Results: IP-5 and IP-6 have a strong cytotoxic impact against HCC1937 cells with IC50 values of 45µM and 47.7µM respectively. IP-7 possesses less cytotoxic effect against HCC1937 cells with IC50 of 79.6µM. Trypan blue assay showed that the three compounds induce significant cell death in the HCC1937 cells. Clonogenic and mammosphere assays demonstrated that IP-5 reduced the HCC1937 cells survival rate by more than 25.0% at 1000 cell concentrations. Western blotting analysis showed that IP-5 compound causes cell cycle arrest as noted by the increasing levels of p53 and p21 in treated cells. IP-5 induced an extrinsic apoptosis pathway as reveals from the increased activity of caspase 7, caspase 8, and the increasing level of PARP cleavage in treated cells. Also, IP-5 treated cells revealed segmented chromatin which is characteristic of apoptotic cells as shown by DAPI stain. Importantly, In comparison to control cells, IP-5-treated cells exhibited lower levels of pAKT. Conclusions: The novel three IPs compounds represent potential active anticancer compounds against HCC1937 breast cancer cells in vitro.
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