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Derivatives of 9-phosphorylated acridine as butyrylcholinesterase inhibitors with antioxidant activity and the ability to inhibit β-amyloid self-aggregation: potential therapeutic agents for Alzheimer’s disease

Affiliation
Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry ,Russian Academy of Sciences ,Chernogolovka ,Russia
Makhaeva, Galina F.;
Affiliation
Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry ,Russian Academy of Sciences ,Chernogolovka ,Russia
Kovaleva, Nadezhda V.;
Affiliation
Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry ,Russian Academy of Sciences ,Chernogolovka ,Russia
Rudakova, Elena V.;
Affiliation
Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry ,Russian Academy of Sciences ,Chernogolovka ,Russia
Boltneva, Natalia P.;
Affiliation
Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry ,Russian Academy of Sciences ,Chernogolovka ,Russia
Lushchekina, Sofya V.;
Affiliation
Emanuel Institute of Biochemical Physics ,Russian Academy of Sciences ,Moscow ,Russia
Astakhova, Tatiana Yu;
Affiliation
Emanuel Institute of Biochemical Physics ,Russian Academy of Sciences ,Moscow ,Russia
Timokhina, Elena N.;
Affiliation
Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry ,Russian Academy of Sciences ,Chernogolovka ,Russia
Serebryakova, Olga G.;
Affiliation
Institute of Organic Synthesis ,Russian Academy of Sciences ,Yekaterinburg ,Russia
Shchepochkin, Alexander V.;
Affiliation
Institute of Organic Synthesis ,Russian Academy of Sciences ,Yekaterinburg ,Russia
Averkov, Maxim A.;
Affiliation
Institute of Organic Synthesis ,Russian Academy of Sciences ,Yekaterinburg ,Russia
Utepova, Irina A.;
Affiliation
Institute of Organic Synthesis ,Russian Academy of Sciences ,Yekaterinburg ,Russia
Demina, Nadezhda S.;
Affiliation
Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry ,Russian Academy of Sciences ,Chernogolovka ,Russia
Radchenko, Eugene V.;
Affiliation
Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry ,Russian Academy of Sciences ,Chernogolovka ,Russia
Palyulin, Vladimir A.;
Affiliation
Department of Pharmacology of the Institute of Biodesign and Complex System Modeling of Biomedical Science & Technology Park of Sechenov I.M. ,First Moscow State Medical University ,Moscow ,Russia
Fisenko, Vladimir P.;
Affiliation
Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry ,Russian Academy of Sciences ,Chernogolovka ,Russia
Bachurin, Sergey O.;
Affiliation
Institute of Organic Synthesis ,Russian Academy of Sciences ,Yekaterinburg ,Russia
Chupakhin, Oleg N.;
Affiliation
Institute of Organic Synthesis ,Russian Academy of Sciences ,Yekaterinburg ,Russia
Charushin, Valery N.;
Affiliation
Department of Pharmacology of the Institute of Biodesign and Complex System Modeling of Biomedical Science & Technology Park of Sechenov I.M. ,First Moscow State Medical University ,Moscow ,Russia
Richardson, Rudy J.

We investigated the inhibitory activities of novel 9-phosphoryl-9,10-dihydroacridines and 9-phosphorylacridines against acetylcholinesterase (AChE), butyrylcholinesterase (BChE), and carboxylesterase (CES). We also studied the abilities of the new compounds to interfere with the self-aggregation of β-amyloid (Aβ 42 ) in the thioflavin test as well as their antioxidant activities in the ABTS and FRAP assays. We used molecular docking, molecular dynamics simulations, and quantum-chemical calculations to explain experimental results. All new compounds weakly inhibited AChE and off-target CES. Dihydroacridines with aryl substituents in the phosphoryl moiety inhibited BChE; the most active were the dibenzyloxy derivative 1d and its diphenethyl bioisostere 1e (IC 50 = 2.90 ± 0.23 µM and 3.22 ± 0.25 µM, respectively). Only one acridine, 2d , an analog of dihydroacridine, 1d , was an effective BChE inhibitor (IC 50 = 6.90 ± 0.55 μM), consistent with docking results. Dihydroacridines inhibited Aβ 42 self-aggregation; 1d and 1e were the most active (58.9% ± 4.7% and 46.9% ± 4.2%, respectively). All dihydroacridines 1 demonstrated high ABTS •+ -scavenging and iron-reducing activities comparable to Trolox, but acridines 2 were almost inactive. Observed features were well explained by quantum-chemical calculations. ADMET parameters calculated for all compounds predicted favorable intestinal absorption, good blood–brain barrier permeability, and low cardiac toxicity. Overall, the best results were obtained for two dihydroacridine derivatives 1d and 1e with dibenzyloxy and diphenethyl substituents in the phosphoryl moiety. These compounds displayed high inhibition of BChE activity and Aβ 42 self-aggregation, high antioxidant activity, and favorable predicted ADMET profiles. Therefore, we consider 1d and 1e as lead compounds for further in-depth studies as potential anti-AD preparations.

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License Holder: Copyright © 2023 Makhaeva, Kovaleva, Rudakova, Boltneva, Lushchekina, Astakhova, Timokhina, Serebryakova, Shchepochkin, Averkov, Utepova, Demina, Radchenko, Palyulin, Fisenko, Bachurin, Chupakhin, Charushin and Richardson.

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