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Sara Noorizadeh, Adeleh Divsalar, Mahbubeh Eslami-Moghaddam, Ali Akbar Saboury,
Volume 2, Issue 4 (3-2016)
Abstract

Human serum albumin (HSA) is the most abundant protein in blood plasma, which is responsible for 80% of blood pressure; it also acts as a carrier protein for many compounds in the blood such as drugs. In the present study, the interaction and side-effects of a newly-designed anti-cancer compound of isopentyl-glycine1, 10-phenanthroline Platinum nitrate on HSA have been investigated. In this investigation, the side effects, values of the number of binding sites and the association binding constants of new synthesized Pt(II) complex have been studied by different spectroscopic (fluorescence and circular diachronic (CD) techniques at different temperatures of 25 and 37 °C. The analysis of fluorescence spectra showed that the addition of the complex led to a significant reduction in the fluorescence spectra of HSA via quenching mechanism. Also, it can change the three-dimensional structure of tryptophan existing in the protein. The number of binding sites, the Stern-Volmer quenching constant and the association constant of the complex were calculated on the HSA protein. The analysis of circular dichroic spectra showed that the complex can change the regular secondary structure of the protein via reduction of α helical structure and increase of β sheet structure which indicates a decrease in the stability of the protein. According to the results obtained, it can be concluded that this new synthesized Pt(II) complex can bind to the main blood carrier protein (HSA) and change the secondary and tertiary structure of the protein which can be considered as the side-effects of this drug.


Mahdieh Garshasbi, Adeleh Divsalar,
Volume 8, Issue 3 (10-2021)
Abstract

Nanotechnology-based targeting drug delivery systems have a considerable potential in medicine. Therefore, the present study aimed to designe, synthesise and characterize a nanodrug with beta lactoglobulin coating including oxali-palladium with and without folate and to compare their anti-cancer effects. The physicochemical properties of nanocapsules were studied by Dynamic light scattering (DLS), atomic force microscopy (AFM) and scanning electron microscopy (SEM). Finally, the anticancer activities of nanodrugs were investigated against human colorectal cancer cell line of HCT116 by MTT and flowcytometry methods. The results of Dynamic light scattering (DLS), scanning electron microscopy (SEM) and atomic force microscopy (AFM) showed that the average size of nanocapsules with folate were less than 40 nm. Cytotoxicity results proved the dose- and time-dependent antiproliferation and anicancer activities of nanocapsules (with folate) against HCT116. Finally, it could be concluded that folate increase anticancer activity of nanodrugs and it might be considered as a new candidate in the design and synthesis of new drugs in cancer treatment.


 

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