The synthesis, characterization, DNA/BSA/HSA interactions, molecular modeling, antibacterial properties, andin vitrocytotoxic activities of novel parent and niosome nano-encapsulated Ho(iii) complexes

(2020) The synthesis, characterization, DNA/BSA/HSA interactions, molecular modeling, antibacterial properties, andin vitrocytotoxic activities of novel parent and niosome nano-encapsulated Ho(iii) complexes. Rsc Advances. pp. 22891-22908.

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Abstract

Based on the importance of metal-centered complexes that can interact with DNA, this research focused on the synthesis of a new Ho(iii) complex. This complex was isolated and characterizedviaelemental analysis, and FT-IR, fluorescence, and UV-vis spectroscopy. Additional confirmation of the Ho(iii) complex structure was obtainedviasingle-crystal X-ray diffraction. DNA interaction studies were carried outviacircular dichroism (CD) spectroscopy, UV-vis absorption spectroscopy, viscosity measurements and emission spectroscopy; it was proposed that the metal complex acts as an effective DNA binder based on studies in the presence of fish DNA (FS-DNA), showing high binding affinity to DNA in the presence of hydrophobic and electron donating substituents. Also, the interactions of this complex with human (HSA) and bovine serum albumin (BSA) proteins were studiedviafluorescence spectroscopy techniques and the obtained results reveal an excellent propensity for binding in both cases. Furthermore, the interactions of the Ho(iii) complex with DNA, BSA and HSA were confirmedviamolecular docking analysis. The antimicrobial activities of the Ho(iii) complex were tested against Gram-negative bacteria and Gram-positive bacteria. In addition, a niosome nano-encapsulated Ho(iii) complex was synthesized, and the parent and encapsulated complexes were evaluated as potential antitumor candidates. The main structure of the Ho(iii) complex is maintained after encapsulation using niosome nanoparticles. The MTT method was used to assess the anticancer properties of the Ho(iii) complex and its encapsulated form toward human lung carcinoma and breast cancer cell lines. The anticancer activity in the encapsulated form was more than that of the parent Ho(iii) complex. In conclusion, these compounds could be considered as new antitumor candidates.

Item Type: Article
Keywords: DNA-BINDING PROPERTIES IN-VITRO DNA CRYSTAL-STRUCTURES BSA-BINDING ANTIMICROBIAL ACTIVITY COPPER(II) COMPLEXES LANTHANIDE COMPLEXES ANTIOXIDANT ACTIVITY CLEAVAGE DOCKING
Subjects: QY Clinical Laboratory Pathology
Divisions: Faculty of Paramedical > Department of Laboratory Sciences
Page Range: pp. 22891-22908
Journal or Publication Title: Rsc Advances
Journal Index: ISI
Volume: 10
Number: 39
Identification Number: https://doi.org/10.1039/d0ra03436c
Depositing User: Zahra Otroj
URI: http://eprints.mui.ac.ir/id/eprint/12396

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