6f25 Citations

New evidence for dual binding site inhibitors of acetylcholinesterase as improved drugs for treatment of Alzheimer's disease.

Zueva I, Dias J, Lushchekina S, Semenov V, Mukhamedyarov M, Pashirova T, Babaev V, Nachon F, Petrova N, Nurullin L, Zakharova L, Ilyin V, Masson P, Petrov K
Neuropharmacology 155 131-141 (2019)
Cited: 27 times
EuropePMC logo PMID: 31132435

Abstract

Profound synaptic dysfunction contributes to early loss of short-term memory in Alzheimer's disease. This study was set up to analyze possible neuroprotective effects of two dual binding site inhibitors of acetylcholinesterase (AChE), a new 6-methyluracil derivative, C-35, and the clinically used inhibitor donepezil. Crystal structure of the complex between human AChE and C-35 revealed tight contacts of ligand along the enzyme active site gorge. Molecular dynamics simulations indicated that the external flexible part of the ligand establishes multiple transient interactions with the enzyme peripheral anionic site. Thus, C-35 is a dual binding site inhibitor of AChE. In transgenic mice, expressing a chimeric mouse/human amyloid precursor protein and a human presenilin-1 mutant, C-35 (5 mg/kg, i.p) and donepezil (0.75 mg/kg, i.p) partially reversed synapse loss, decreased the number of amyloid plaques, and restored learning and memory. To separate temporal symptomatic therapeutic effects, associated with the increased lifetime of acetylcholine in the brain, from possible disease-modifying effect, an experimental protocol based on drug withdrawal from therapy was performed. When administration of C-35 and donepezil was terminated three weeks after the trial started, animals that were receiving C-35 showed a much better ability to learn than those who received vehicle or donepezil. Our results provide additional evidence that dual binding site inhibitors of AChE have Alzheimer's disease-modifying action.

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  2. Aryldiazoquinoline based multifunctional small molecules for modulating Aβ42 aggregation and cholinesterase activity related to Alzheimer's disease. Rana M, Pareek A, Bhardwaj S, Arya G, Nimesh S, Arya H, Bhatt TK, Yaragorla S, Sharma AK. RSC Adv 10 28827-28837 (2020)
  3. Novel Uracil-Based Inhibitors of Acetylcholinesterase with Potency for Treating Memory Impairment in an Animal Model of Alzheimer's Disease. Semenov VE, Zueva IV, Lushchekina SV, Suleimanov EG, Gubaidullina LM, Shulaeva MM, Lenina OA, Petrov KA. Molecules 27 7855 (2022)


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  1. Alzheimer's Disease Pharmacotherapy in Relation to Cholinergic System Involvement. Stanciu GD, Luca A, Rusu RN, Bild V, Beschea Chiriac SI, Solcan C, Bild W, Ababei DC. Biomolecules 10 E40 (2019)
  2. A Comprehensive Review of Cholinesterase Modeling and Simulation. De Boer D, Nguyen N, Mao J, Moore J, Sorin EJ. Biomolecules 11 580 (2021)
  3. Applications and challenges of low temperature plasma in pharmaceutical field. Gao L, Shi X, Wu X. J Pharm Anal 11 28-36 (2021)

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  2. New Multifunctional Agents Based on Conjugates of 4-Amino-2,3-polymethylenequinoline and Butylated Hydroxytoluene for Alzheimer's Disease Treatment. Makhaeva GF, Kovaleva NV, Rudakova EV, Boltneva NP, Lushchekina SV, Faingold II, Poletaeva DA, Soldatova YV, Kotelnikova RA, Serkov IV, Ustinov AK, Proshin AN, Radchenko EV, Palyulin VA, Richardson RJ. Molecules 25 E5891 (2020)
  3. In Silico Design of Dual-Binding Site Anti-Cholinesterase Phytochemical Heterodimers as Treatment Options for Alzheimer's Disease. Amat-Ur-Rasool H, Ahmed M, Hasnain S, Ahmed A, Carter WG. Curr Issues Mol Biol 44 152-175 (2021)
  4. Slow-binding reversible inhibitor of acetylcholinesterase with long-lasting action for prophylaxis of organophosphate poisoning. Lenina OA, Zueva IV, Zobov VV, Semenov VE, Masson P, Petrov KA. Sci Rep 10 16611 (2020)
  5. Correlation between total phenolic and flavonoid contents and biological activities of 12 ethanolic extracts of Iranian propolis. Fathi Hafshejani S, Lotfi S, Rezvannejad E, Mortazavi M, Riahi-Madvar A. Food Sci Nutr 11 4308-4325 (2023)
  6. Inhibiting Acetylcholinesterase to Activate Pleiotropic Prodrugs with Therapeutic Interest in Alzheimer's Disease. Toublet FX, Lecoutey C, Lalut J, Hatat B, Davis A, Since M, Corvaisier S, Freret T, Sopkova de Oliveira Santos J, Claeysen S, Boulouard M, Dallemagne P, Rochais C. Molecules 24 E2786 (2019)
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  9. Novel Acetylcholinesterase Inhibitors Based on Uracil Moiety for Possible Treatment of Alzheimer Disease. Semenov VE, Zueva IV, Mukhamedyarov MA, Lushchekina SV, Petukhova EO, Gubaidullina LM, Krylova ES, Saifina LF, Lenina OA, Petrov KA. Molecules 25 E4191 (2020)
  10. A New Class of Bi- and Trifunctional Sugar Oximes as Antidotes against Organophosphorus Poisoning. Da Silva O, Probst N, Landry C, Hanak AS, Warnault P, Coisne C, Calas AG, Gosselet F, Courageux C, Gastellier AJ, Trancart M, Baati R, Dehouck MP, Jean L, Nachon F, Renard PY, Dias J. J Med Chem 65 4649-4666 (2022)
  11. Design, synthesis, and bio-evaluation of new isoindoline-1,3-dione derivatives as possible inhibitors of acetylcholinesterase. Hassanzadeh M, Hassanzadeh F, Khodarahmi GA, Rostami M, Azimi F, Nadri H, Homayouni Moghadam F. Res Pharm Sci 16 482-492 (2021)
  12. Bis-Amiridines as Acetylcholinesterase and Butyrylcholinesterase Inhibitors: N-Functionalization Determines the Multitarget Anti-Alzheimer's Activity Profile. Makhaeva GF, Kovaleva NV, Boltneva NP, Rudakova EV, Lushchekina SV, Astakhova TY, Serkov IV, Proshin AN, Radchenko EV, Palyulin VA, Korabecny J, Soukup O, Bachurin SO, Richardson RJ. Molecules 27 1060 (2022)
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  14. Melamine Disrupts Acetylcholine-Mediated Neural Information Flow in the Hippocampal CA3-CA1 Pathway. Sun W, Liu P, Tang C, An L. Front Behav Neurosci 15 594907 (2021)
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  16. Biologically Potent Benzimidazole-Based-Substituted Benzaldehyde Derivatives as Potent Inhibitors for Alzheimer's Disease along with Molecular Docking Study. Adalat B, Rahim F, Rehman W, Ali Z, Rasheed L, Khan Y, Farghaly TA, Shams S, Taha M, Wadood A, Shah SAA, Abdellatif MH. Pharmaceuticals (Basel) 16 208 (2023)
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  18. Novel hydroxybenzylamine-deoxyvasicinone hybrids as anticholinesterase therapeutics for Alzheimer's disease. Bowroju SK, Penthala NR, Lakkaniga NR, Balasubramaniam M, Ayyadevara S, Shmookler Reis RJ, Crooks PA. Bioorg Med Chem 45 116311 (2021)
  19. Combining Experimental and Computational Methods to Produce Conjugates of Anticholinesterase and Antioxidant Pharmacophores with Linker Chemistries Affecting Biological Activities Related to Treatment of Alzheimer's Disease. Makhaeva GF, Kovaleva NV, Rudakova EV, Boltneva NP, Lushchekina SV, Astakhova TY, Timokhina EN, Serkov IV, Proshin AN, Soldatova YV, Poletaeva DA, Faingold II, Mumyatova VA, Terentiev AA, Radchenko EV, Palyulin VA, Bachurin SO, Richardson RJ. Molecules 29 321 (2024)
  20. Novel Lawsone-Quinoxaline Hybrids as New Dual Binding Site Acetylcholinesterase Inhibitors. Suwanhom P, Nualnoi T, Khongkow P, Tipmanee V, Lomlim L. ACS Omega 8 32498-32511 (2023)
  21. Synthesis, Antiacetylcholinesterase Activity, and Molecular Dynamics Simulation of Aporphine-benzylpyridinium Conjugates. Khunnawutmanotham N, Sooknual P, Batsomboon P, Ploypradith P, Chimnoi N, Patigo A, Saparpakorn P, Techasakul S. ACS Med Chem Lett 15 132-142 (2024)


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