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  1. Publikacije
  2. Potential of vitamin B6 dioxime analogues to act as cholinesterase ligands
izvor podataka: crosbi

Potential of vitamin B6 dioxime analogues to act as cholinesterase ligands (CROSBI ID 315935)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Gašo Sokač, Dajana ; Zandona, Antonio ; Roca, Sunčica ; Vikić-Topić, Dražen ; Lihtar, Gabriela ; Maraković, Nikola ; Bušić, Valentina ; Kovarik, Zrinka ; Katalinić, Maja Potential of vitamin B6 dioxime analogues to act as cholinesterase ligands // International journal of molecular sciences, 23 (2022), 21; 13388, 18. doi: 10.3390/ijms232113388

Podaci o odgovornosti

Gašo Sokač, Dajana ; Zandona, Antonio ; Roca, Sunčica ; Vikić-Topić, Dražen ; Lihtar, Gabriela ; Maraković, Nikola ; Bušić, Valentina ; Kovarik, Zrinka ; Katalinić, Maja

engleski

Potential of vitamin B6 dioxime analogues to act as cholinesterase ligands

Seven pyridoxal dioxime quaternary salts (1–7)were synthesizedwith the aimof studying their interactions with human acetylcholinesterase (AChE) and butyrylcholinesterase (BChE). The synthesis was achieved by the quaternization of pyridoxal monooxime with substituted 2- bromoacetophenone oximes (phenacyl bromide oximes). All compounds, prepared in good yields (43–76%) and characterized by 1D and 2D NMR spectroscopy, were evaluated as reversible inhibitors of cholinesterase and/or reactivators of enzymes inhibited by toxic organophosphorus compounds. Their potency was compared with that of their monooxime analogues and medically approved oxime HI-6. The obtained pyridoxal dioximes were relatively weak inhibitors for both enzymes (Ki = 100–400 M). The second oxime group in the structure did not improve the binding compared to the monooxime analogues. The same was observed for reactivation of VX-, tabun-, and paraoxon- inhibited AChE and BChE, where no significant efficiency burst was noted. In silico analysis and molecular docking studies connected the kinetic data to the structural features of the tested compound, showing that the low binding affinity and reactivation efficacy may be a consequence of a bulk structure hindering important reactive groups. The tested dioximes were non-toxic to human neuroblastoma cells (SH-SY5Y) and human embryonal kidney cells (HEK293).

pyridoxal oxime ; dioxime ; AChE ; BChE ; reversible inhibition ; reactivation ; molecular docking ; cytotoxicity

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Podaci o izdanju

23 (21)

2022.

13388

18

objavljeno

1422-0067

10.3390/ijms232113388

Povezanost rada

Povezane osobe
Dajana Gašo-Sokač (autor/i)
Antonio Zandona (autor/i)
Sunčica Roca (autor/i)
Dražen Vikić-Topić (autor/i)
Nikola Maraković (autor/i)
Valentina Bušić (autor/i)
Zrinka Kovarik (autor/i)
Maja Katalinic (autor/i)
Povezane ustanove
Institut Ruđer Bošković (098) (autorova ustanova)
Institut za medicinska istraživanja i medicinu rada, Zagreb (022) (autorova ustanova)
Prehrambeno-tehnološki fakultet Osijek (113) (autorova ustanova)
Sveučilište Jurja Dobrile u Puli (303) (autorova ustanova)
Povezani projekti
Molekularni mehanizmi toksičnosti protuotrova i potencijalnih lijekova (rezultat rada na projektu)
Analiza interakcija butirilkolinesteraze s novim inhibitorima i reaktivatorima (rezultat rada na projektu)

Biologija, Kemija

Poveznice
doi.org
mdpi.com
fulir.irb.hr
Indeksiranost
Scopus
Current Contents Connect (CCC)
Medline
Web of Science Core Collection, Science Citation Index Expanded (WoSCC-SCI-Exp)
Web of Science Core Collection, SCI-Exp, SSCI & A&HCI (WoSCC-SCI-Exp, SSCI, A&HCI)
Krugovi, vizual Srca