Investigation of enzyme inhibition, serum protein protective effects, and molecular docking studies of mixed-ligand ruthenium( ii ) polypyridyl complexes

Investigation of enzyme inhibition, serum protein protective effects, and molecular docking studies of mixed-ligand ruthenium( ii ) polypyridyl complexes

Five new ruthenium( ii ) complexes—[Ru(η 2 - N , S -mpy)(η 1 - S -mpy)(tptz)] (Ru1), [Ru(η 2 - N , S -mbtz)(η 1 - S -mbtz)(tptz)] (Ru2), [Ru(η 2 - N , S -mpt)(η 1 - S -mpt)(tpy)] (Ru3), [Ru(η 2 - N , S -mbtz)(η 1 - S -mbtz)(tpy)] (Ru4), and [Ru(η 2 - N , S -mpy)(η 1 - S -mpy) (tpy)] (Ru5)—were synth...

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Veröffentlicht in:New journal of chemistry 2025-01, Vol.49 (4), p.1440-1450
Hauptverfasser: Khatkar, Sunita, Dubey, Santosh Kumar, Trivedi, Manoj, Vashisth, Chanchal, Devi, Neeru, Raghav, Neera, Sharma, Meenakshi, Rajamoni, Jagan
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Sprache:eng
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Absorption spectroscopy
Amylases
Binding
Crystallography
Ligands
Lipase
Molecular docking
Molecular structure
NMR
Nuclear magnetic resonance
Pepsin
Proteins
Ruthenium
Ruthenium compounds
Serum proteins
Trypsin
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container_end_page 1450
container_issue 4
container_start_page 1440
container_title New journal of chemistry
container_volume 49
creator Khatkar, Sunita
Dubey, Santosh Kumar
Trivedi, Manoj
Vashisth, Chanchal
Devi, Neeru
Raghav, Neera
Sharma, Meenakshi
Rajamoni, Jagan
description Five new ruthenium( ii ) complexes—[Ru(η 2 - N , S -mpy)(η 1 - S -mpy)(tptz)] (Ru1), [Ru(η 2 - N , S -mbtz)(η 1 - S -mbtz)(tptz)] (Ru2), [Ru(η 2 - N , S -mpt)(η 1 - S -mpt)(tpy)] (Ru3), [Ru(η 2 - N , S -mbtz)(η 1 - S -mbtz)(tpy)] (Ru4), and [Ru(η 2 - N , S -mpy)(η 1 - S -mpy) (tpy)] (Ru5)—were synthesized and characterized using elemental analyses, IR, 1 H and 13 C NMR, and electronic absorption spectroscopy. The molecular structure of the representative complex Ru1 was determined crystallographically. The coordination geometry in Ru1 was found to be distorted octahedral with tptz coordinated to the ruthenium centre in a κ 3 mode and two 2-marcaptopyridine ligands coordinated in κ 2 and κ 1 modes. The synthesized complexes were evaluated for their inhibitory activity against intracellular enzymes, such as amylase, lipase, trypsin, and pepsin, as well as their serum protein protecting activity. Lipase, trypsin, and pepsin displayed inhibitory effects in the presence of the synthesized complexes and ligands, with observed IC 50 values in the range of 10 −6 M, whereas amylase activity was found to be enhanced. In line with other pharmacologically active Ru( ii ) compounds, serum protein binding studies were performed using both the N , S ′ and N , N ′ donor ligands, as well as the ruthenium( ii ) complexes Ru1–Ru5. These studies revealed that the binding efficiency of the complexes surpassed that of the corresponding ligands.
doi_str_mv 10.1039/D4NJ04773G
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The molecular structure of the representative complex Ru1 was determined crystallographically. The coordination geometry in Ru1 was found to be distorted octahedral with tptz coordinated to the ruthenium centre in a κ 3 mode and two 2-marcaptopyridine ligands coordinated in κ 2 and κ 1 modes. The synthesized complexes were evaluated for their inhibitory activity against intracellular enzymes, such as amylase, lipase, trypsin, and pepsin, as well as their serum protein protecting activity. Lipase, trypsin, and pepsin displayed inhibitory effects in the presence of the synthesized complexes and ligands, with observed IC 50 values in the range of 10 −6 M, whereas amylase activity was found to be enhanced. In line with other pharmacologically active Ru( ii ) compounds, serum protein binding studies were performed using both the N , S ′ and N , N ′ donor ligands, as well as the ruthenium( ii ) complexes Ru1–Ru5. 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The molecular structure of the representative complex Ru1 was determined crystallographically. The coordination geometry in Ru1 was found to be distorted octahedral with tptz coordinated to the ruthenium centre in a κ 3 mode and two 2-marcaptopyridine ligands coordinated in κ 2 and κ 1 modes. The synthesized complexes were evaluated for their inhibitory activity against intracellular enzymes, such as amylase, lipase, trypsin, and pepsin, as well as their serum protein protecting activity. Lipase, trypsin, and pepsin displayed inhibitory effects in the presence of the synthesized complexes and ligands, with observed IC 50 values in the range of 10 −6 M, whereas amylase activity was found to be enhanced. In line with other pharmacologically active Ru( ii ) compounds, serum protein binding studies were performed using both the N , S ′ and N , N ′ donor ligands, as well as the ruthenium( ii ) complexes Ru1–Ru5. 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source Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects Absorption spectroscopy
Amylases
Binding
Crystallography
Ligands
Lipase
Molecular docking
Molecular structure
NMR
Nuclear magnetic resonance
Pepsin
Proteins
Ruthenium
Ruthenium compounds
Serum proteins
Trypsin
title Investigation of enzyme inhibition, serum protein protective effects, and molecular docking studies of mixed-ligand ruthenium( ii ) polypyridyl complexes
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