Carboplatin (CP), a platinum analog, is one of the most widely used chemotherapeutic agents in the treatment of colorectal cancer. Although platinum-based drugs are quite effective in anticancer treatments, their use in a wide spectrum and effective treatment possibilities are limited due to their systemic side effects and drug resistance development. In recent years, studies have focused on increasing the therapeutic efficacy of platinum-based drugs with drug delivery systems. Gelatin, a protein, obtained by the hydrolysis of collagen, is a biocompatible and biodegradable material that can be used in nano drug delivery systems. In this study, CP-loaded gelatin-based NPs (CP-NPs) were exposed to IR light in different temperatures at 30, 35, 40, 45, and 50 °C and characterized by FESEM-EDX, FTIR, UV–Vis, DLS. Accordingly, we synthesized gelatin-based CP-NPs of different sizes between 10–290 nm by exposure to IR. We found that CP-NPs-50, 16 nm nano-sized, obtained at 50 °C had the most cytotoxicity and was 2.2 times more effective than the free drug in HCT 116 colon cancer cells. Moreover, we showed that the cytotoxicity of CP-NPs-50 in normal HUVEC cells was lower. Additionally, we demonstrated that CP-NPs enhanced apoptotic activity while not developing MDR1-related resistance in colon cancer cells. In this study, for the first time drug loaded gelatin-based nanoparticles were synthesized in different sizes with a newly self-assembly method by exposing them to infrared light at different temperatures and their anticancer effects were evaluated subsequently.
Aim:
The present study aims to identify the anticancer effect of novel 1H-indole-2,3-dione 3-thiosemicarbazone derivatives. These compounds could be promissing anticancer agents in leukemia treatment.
Background :
Conventional chemotherapeutic agents accumulate in both normal and tumor cells due to non-specificity. For effective cancer treatment, new drugs need to be developed to make chemotherapeutics selective for cancer cells. The ultimate goal of cancer treatment is to reduce systemic toxicity and improve the quality of life.
Method:
In this study, the anticancer effects of 5-trifluoromethoxy-1H-indole-2,3-dione 3-thiosemicarbazone derivatives (A-L) were investigated in chronic myelogenous leukemia K562, Burkitt’s lymphoma P3HR1, acute promyelocytic leukemia HL60 cells and vincristine-resistant sublines of K562 and P3HR1 cells. Additionally, the compounds were tested on lymphoid derived cells from ALL patients. In order to investigate the particular mechanism of death caused by the cytotoxic effects of the compounds, immunohistochemical caspase 3 staining was performed in P3HR1 cells, and resulting apoptotic activities were demonstrated.
Result:
All compounds tested have been found to have cytotoxic effects against lymphoma cells at submicromolar concentrations (IC50= 0.89-1.80 µM). Most compounds show significant selectivity for the P3HR1 and P3HR1 Vin resistant. The most effective and selective compound is 4-bromophenyl substituted compound I (IC50=0.96 and 0.89 µM). Cyclohexyl and benzyl substituted compounds D and E have also been found to have cytotoxic effects against K562 cell lines (IC50=2.38 µM), while the allyl substituted compound C is effective on all cell lines (IC50=1.13-2.21 µM). 4-Fluorophenyl substituted F compound has been observed to be effective on all cells (IC50=1.00-2.41 µM) except K562 cell. Compound C is the only compound that shows inhibition of HL-60 cells (IC50= 1.13 µM). Additionally, all compounds exhibited cytotoxic effects on lymphoid-derived cells at 1µM concentration. These results are in accordance with the results obtained in lymphoma cells.
Conclusion:
All compounds tested have submicromolar concentrations of cytotoxic effects on cells. These compounds hold promise for the future treatment of leukemia cancer.
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