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Showing 2 results for Anticancer

Katayoon Meimandi, Mohammad Mehdi Yaghoobi,
Volume 6, Issue 1 (5-2019)
Abstract

In this study, the cytotoxic effects of aqueous and ethanolic extracts of Sedum album L. on human stomach cancer cell line (AGS) and breast cancer cell line (MCF-7) were evaluated by MTT, BrdU and TUNEL assays. The results demonstrated that both extracts had antiproliferative and apoptotic effects in a dose-dependent manner. The MTT assay data revealed that the AGS cell underwent more cytotoxicity in comparison with the MCF-7 cell. It also revealed that ethanolic extract was more potent than aqueous extract. The BrdU assay results showed that the proliferation of AGS and MCF-7 cells was reduced to 50% and 43%, respectively, at the highest concentration of the aqueous extract. In addition, the ethanolic extract reduced the proliferation of AGS and MCF-7 cells to 75% and 60%, respectively. The AGS and MCF-7 cells underwent 52% and 12% apoptotic death upon treatment by the ethanolic extract as TUNEL assay showed. The aqueous extract induced 28% and 25% apoptosis in the AGS and MCF-7 cells, respectively. Both inhibition of proliferation and induction of apoptosis are desirable strategies for cancer treatment among researchers. Identification of S. album compounds and analyzing their effects in animal model of cancer can help us with understanding its anti-cancer properties.
 

 


Nina Alizadeh, Shokufeh Malakzadeh,
Volume 8, Issue 2 (7-2021)
Abstract

The aim of this study was to investigate the interaction modification of curcumin complex molecule (CUR) in beta- and gamma-cyclodextrin (β-CD and γ-CD) carriers with chitosan (CS) nanoparticles for targeted drug delivery and to compare their performance. The targeted drug delivery system includes the therapeutic agent of the CS nanoparticles targeting section of the same drug and the CD carrier system. Calculations of the relationships of the formation of modified complexes and their application were performed using UV-vis spectroscopic data analysis. In this study, spectroscopic spectrum diagrams were drawn to prove the optimization of molecular structure in the modified complexes. Data analysis was performed using their respective equations. The cationic polysaccharide CS, with the presence of amino agents and alcohols along the polysaccharide chains, enables it to form a covalent bond with the complexes and increase the solubility of cyclodextrin. CS nanoparticles strengthen the hydrogen bond by hydrogen bonding and van der Waals hydrogen interactions of the hydroxyl cyclodextrin group with the hydroxyl phenolic group of the drug molecule CUR. Modification of the γ-CD complex with CS shows the strongest interaction with CUR. Both CUR complexes are in the CD-CS host system to transfer the charge from the drug to the carrier and the therapeutic agent. CS nanoparticles have the property of targeted delivery systems for anticancer drugs because the CS external field can be used to direct the drug to specific target cells. The γ-CD-CS host system is the best host as a carrier and therapeutic agent for CUR due to its high solubility and strong interaction.
 
 

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