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001-es BibID:BIBFORM101136
035-os BibID:(cikkazonosító)2494 (scopus)85125044439 (wos)000768200600001
Első szerző:Hadháziné Raics Mária (vegyész)
Cím:Investigation of the Molecular Details of the Interactions of Selenoglycosides and Human Galectin-3 / Mária Raics, Álex Kálmán Balogh, Chandan Kishor, István Timári, Francisco J. Medrano, Antonio Romero, Rob Marc Go, Helen Blanchard, László Szilágyi, Katalin E. Kövér, Krisztina Fehér
Dátum:2022
ISSN:1661-6596 1422-0067
Megjegyzések:Human galectin-3 (hGal-3) is involved in a variety of biological processes and is implicated in wide range of diseases. As a result, targeting hGal-3 for clinical applications has become an intense area of research. As a step towards the development of novel hGal-3 inhibitors, we describe a study of the binding of two Se-containing hGal-3 inhibitors, specifically that of di(?-Dgalactopyranosyl)selenide (SeDG), in which two galactose rings are linked by one Se atom and a di(?-D-galactopyranosyl)diselenide (DSeDG) analogue with a diseleno bond between the two sugar units. The binding affinities of these derivatives to hGal-3 were determined by 15N-1H HSQC NMR spectroscopy and fluorescence anisotropy titrations in solution, indicating a slight decrease in the strength of interaction for SeDG compared to thiodigalactoside (TDG), a well-known inhibitor of hGal-3, while DSeDG displayed a much weaker interaction strength. NMR and FA measurements showed that both seleno derivatives bind to the canonical S face site of hGal-3 and stack against the conserved W181 residue also confirmed by X-ray crystallography, revealing canonical properties of the interaction. The interaction with DSeDG revealed two distinct binding modes in the crystal structure which are in fast exchange on the NMR time scale in solution, explaining a weaker interaction with hGal-3 than SeDG. Using molecular dynamics simulations, we have found that energetic contributions to the binding enthalpies mainly differ in the electrostatic interactions and in polar solvation terms and are responsible for weaker binding of DSeDG compared to SeDG. Selenium-containing carbohydrate inhibitors of hGal-3 showing canonical binding modes offer the potential of becoming novel hydrolytically stable scaffolds for a new class of hGal-3 inhibitors.
Tárgyszavak:Természettudományok Kémiai tudományok idegen nyelvű folyóiratközlemény külföldi lapban
folyóiratcikk
lectin
galectin-3
selenoglycosides
NMR spectroscopy
fluorescence anisotropy
X-ray crystallography
molecular dynamics
Megjelenés:International Journal of Molecular Sciences. - 23 : 5 (2022), p. 1-17. -
További szerzők:Balogh Álex Kálmán (1994-) (vegyész) Kishor, Chandan Timári István (1989-) (vegyész) Medrano, Francisco J. Romero, Antonio Go, Rob Marc Blanchard, Helen Szilágyi László (1941-) (vegyész) Kövér Katalin, E. (1956-2023) (vegyész) Fehér Krisztina (1974-) (vegyész)
Pályázati támogatás:NN 128368
OTKA
PD 135034
OTKA
GINOP-2.3.3-15-2016-00004
GINOP
GINOP-2.3.2-15-2016-00008
GINOP
BO/00372/20/7
Egyéb
ÚNKP-21-5-DE-471
Egyéb
BO/004333/18/7
Egyéb
ÚNKP-21-4-DE-165
Egyéb
Internet cím:Szerző által megadott URL
DOI
Intézményi repozitóriumban (DEA) tárolt változat
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2.

001-es BibID:BIBFORM118500
035-os BibID:(cikkazonosító)1742
Első szerző:Hőgye Fanni
Cím:Saturation Transfer Difference NMR and Molecular DockingInteraction Study of Aralkyl-Thiodigalactosides as Potential Inhibitors of the Human-Galectin-3 Protein / Fanni Hőgye, László Bence Farkas, Álex Kálmán Balogh, László Szilágyi, Samar Alnukari, István Bajza, Anikó Borbás, Krisztina Fehér, Tünde Zita Illyés, István Timár
Dátum:2024
ISSN:1422-0067
Megjegyzések:Human Galectin-3 (hGal-3) is a protein that selectively binds to ?-galactosides and holds diverse roles in both normal and pathological circumstances. Therefore, targeting hGal-3 has become a vibrant area of research in the pharmaceutical chemistry. As a step towards the development of novel hGal-3 inhibitors, we synthesized and investigated derivatives of thiodigalactoside (TDG) modified with different aromatic substituents. Specifically, we describe a high-yielding synthetic route of thiodigalactoside (TDG); an optimized procedure for the synthesis of the novel 3,3·-di-O-(quinoline- 2-yl)methyl)-TDG and three other known, symmetric 3,3·-di-O-TDG derivatives ((naphthalene- 2yl)methyl, benzyl, (7-methoxy-2H-1-benzopyran-2-on-4-yl)methyl). In the present study, using competition Saturation Transfer Difference (STD) NMR spectroscopy, we determined the dissociation constant (Kd) of the former three TDG derivatives produced to characterize the strength of the interaction with the target protein (hGal-3). Based on the Kd values determined, the (naphthalen-2- yl)methyl, the (quinolin-2-yl)methyl and the benzyl derivatives bind to hGal-3 94, 30 and 24 times more strongly than TDG. Then, we studied the binding modes of the derivatives in silico by molecular docking calculations. Docking poses similar to the canonical binding modes of well-known hGal-3 inhibitors have been found. However, additional binding forces, cation?? interactions between the arginine residues in the binding pocket of the protein and the aromatic groups of the ligands, have been established as significant features. Our results offer a molecular-level understanding of the varying affinities observed among the synthesized thiodigalactoside derivatives, which can be a key aspect in the future development of more effective ligands of hGal-3.
Tárgyszavak:Természettudományok Kémiai tudományok idegen nyelvű folyóiratközlemény külföldi lapban
folyóiratcikk
lectin
galectin-3
thiodigalactosides
NMR spectroscopy
STD NMR
molecular docking
Megjelenés:International Journal Of Molecular Sciences. - 25 : 3 (2024), p.1-18. -
További szerzők:Farkas László Bence (1993-) (vegyész) Balogh Álex Kálmán (1994-) (vegyész) Szilágyi László (1941-) (vegyész) Samar Alnukari (1998-) (vegyész) Bajza István (1971-) (vegyész) Borbás Anikó (1965-) (vegyész) Fehér Krisztina (1974-) (vegyész) Illyés Tünde Zita (1970-) (kémia-fizika szakos tanár) Timári István (1989-) (vegyész)
Pályázati támogatás:NN 128368
OTKA
PD 135034
OTKA
KDP-2021
Egyéb
KDP-2023
Egyéb
BO/00372/20/7
Egyéb
Internet cím:Szerző által megadott URL
DOI
Intézményi repozitóriumban (DEA) tárolt változat
Borító:
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