Anticancer Behavior of Pyrrolidine-Based Palladium(II) Complexes and Biophysical Approach on Their DNA, BSA Binding Activity, Molecular Docking, and DFT Study

A series of pyrrolidine-based Pd­(II) complexes, [Pd­(AEP)­Cl2] (C-1), [Pd­(AEP)­(OH2)2]2+(C-2), [Pd­(AEP)­(L-cys)]+ (C-3), [Pd­(AEP)­(N-ac-L-cys)] (C-4), [Pd­(AEP)­(GSH)] (C-5), and [Pd­(AEP)­(DL-meth)]2+ (C-6) (where, AEP = 1-(2-aminoethyl)­pyrrolidine, L-cys = l-cysteine, N-ac-L-cys = N-acetyl-l-...

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Published in:Langmuir 2023-08, Vol.39 (31), p.10947-10964
Main Authors: Tarai, Swarup Kumar, Pan, Angana, Biswas, Pritam, Bhaduri, Rituparna, Mandal, Saikat, Paul, Animesh, Baitalik, Sujoy, Bhattacharjee, Ashish, Moi, Sankar Ch
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container_end_page 10964
container_issue 31
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container_title Langmuir
container_volume 39
creator Tarai, Swarup Kumar
Pan, Angana
Biswas, Pritam
Bhaduri, Rituparna
Mandal, Saikat
Paul, Animesh
Baitalik, Sujoy
Bhattacharjee, Ashish
Moi, Sankar Ch
description A series of pyrrolidine-based Pd­(II) complexes, [Pd­(AEP)­Cl2] (C-1), [Pd­(AEP)­(OH2)2]2+(C-2), [Pd­(AEP)­(L-cys)]+ (C-3), [Pd­(AEP)­(N-ac-L-cys)] (C-4), [Pd­(AEP)­(GSH)] (C-5), and [Pd­(AEP)­(DL-meth)]2+ (C-6) (where, AEP = 1-(2-aminoethyl)­pyrrolidine, L-cys = l-cysteine, N-ac-L-cys = N-acetyl-l-cysteine, GSH = glutathione, and DL-meth = dl-methionine), as anticancer drug candidates have been synthesized and characterized. The DNA binding property of the complexes was executed by gel electrophoresis and spectrophotometric and viscometric methods, and their interaction with BSA was also investigated by various spectroscopic methodologies. The binding activity of the Pd­(II) complexes with DNA and BSA were assessed to evaluate their binding mode and binding constants. Molecular docking was performed to correlate with the experimental results on the interaction of the complexes with DNA and BSA. The changes in the microenvironmental and structural properties of BSA are monitored by a synchronous and 3D fluorescence study. The structural properties were evaluated by DFT and TD-DFT studies. The anticarcinogenic activity of the Pd­(II) complexes was assessed by PASS prediction software to corroborate with the experimental results of the anticancer activity of the complexes. The ROS generation in cancer cell lines has been investigated, and the cell death mechanism through apoptosis was confirmed by measuring the protein expression. All these complexes have excellent anticancer activity compared to ancillary ligands. The cancer cell line (HCT116) shows almost similar or better cell inhibition activity when treated with the Pd­(II) complexes compared to cisplatin, whereas the adverse effect is minimum on a normal cell (NKE). Both the Pd­(II) and Pt­(II) complexes carrying the same ligands reveal almost similar antiproliferative activity.
doi_str_mv 10.1021/acs.langmuir.3c01186
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title Anticancer Behavior of Pyrrolidine-Based Palladium(II) Complexes and Biophysical Approach on Their DNA, BSA Binding Activity, Molecular Docking, and DFT Study
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