Profiling Novel Quinuclidine-Based Derivatives as Potential Anticholinesterase Drugs: Enzyme Inhibition and Effects on Cell Viability

Žunec, Suzana; Vadlja, Donna; Ramić, Alma; Zandona, Antonio; Maraković, Nikola; Brekalo, Iva; Primožič, Ines; Katalinić, Maja

doi:10.3390/ijms25010155

Cited by 1 publication

(1 citation statement)

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“…Since during AD progression BChE increases up to approx. two-fold of normal activity in some brain regions, selective BChE inhibitors may act as therapeutics for later AD stages [ 13 , 14 ]. Analyzing the CNS-active drug scaffold and comparing it to other CNS-active compounds may be used to increase the safety of unwanted effects or increase therapeutic effects for targeted biomolecules.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Anticholinesterase Activity of the Fungicides Mefentrifluconazole and Pyraclostrobin

Kolić,

Šinko

2024

IJMS

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Triazoles are compounds with various biological activities, including fungicidal action. They became popular through cholinesterase studies after the successful synthesis of the dual binding femtomolar triazole inhibitor of acetylcholinesterase (AChE, EC 3.1.1.7) by Sharpless et al. via in situ click chemistry. Here, we evaluate the anticholinesterase effect of the first isopropanol triazole fungicide mefentrifluconazole (Ravystar®), developed to overcome fungus resistance in plant disease management. Mefentrifluconazole is commercially available individually or in a binary fungicidal mixture, i.e., with pyraclostrobin (Ravycare®). Pyraclostrobin is a carbamate that contains a pyrazole ring. Carbamates are known inhibitors of cholinesterases and the carbamate rivastigmine is already in use for the treatment of Alzheimer’s disease. We tested the type and potency of anticholinesterase activity of mefentrifluconazole and pyraclostrobin. Mefentrifluconazole reversibly inhibited human AChE and BChE with a seven-fold higher potency toward AChE (Ki = 101 ± 19 μM). Pyraclostrobin (50 μM) inhibited AChE and BChE progressively with rate constants of (t1/2 = 2.1 min; ki = 6.6 × 103 M−1 min−1) and (t1/2 = 1.5 min; ki = 9.2 × 103 M−1 min−1), respectively. A molecular docking study indicated key interactions between the tested fungicides and residues of the lipophilic active site of AChE and BChE. Additionally, the physicochemical properties of the tested fungicides were compared to values for CNS-active drugs to estimate the blood–brain barrier permeability. Our results can be applied in the design of new molecules with a lesser impact on humans and the environment.

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Section: Introductionmentioning

confidence: 99%