Tacrine–Trolox Hybrids: A Novel Class of Centrally Active, Nonhepatotoxic Multi-Target-Directed Ligands Exerting Anticholinesterase and Antioxidant Activities with Low In Vivo Toxicity

Nepovimová, Eugenie; Korábečný, Jan; Doležal, Rafael; Babkova, Katerina; Ondrejicek, Ales; Jun, Daniel; Šepsová, Vendula; Horova, Anna; Hrabinová, Martina; Soukup, Ondřej; Büküm, Neslihan; Jost, Philipp J.; Múčková, Lubica; Kassa, Jiřı́; Maliňák, Dávid; Andrš, Martin; Kuča, Kamil

doi:10.1021/acs.jmedchem.5b01325

Cited by 123 publications

(90 citation statements)

References 70 publications

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“…6 ), 8d is the best lead molecule from this study as it demonstrated the best ability to inhibit AChE, BuChE and act as a potent antioxidant. This result is supported by recently published work wherein the non-hepatoxicity of tacrine-trolox hybrids has been demonstrated [36]. Novel compound 14 showed promising activity for ChE inhibition and hybrid molecules in this series could also be further explored.…”

Section: Resultssupporting

confidence: 70%

Tacrine, Trolox and Tryptoline as Lead Compounds for the Design and Synthesis of Multi-target Agents for Alzheimer’s Disease Therapy

Teponnou

Joubert

Malan

2017

TOMCJ

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The versatile biological activities of tacrine, trolox and β-carboline derivatives make them promising lead structures for the development of multifunctional Alzheimer’s disease (AD) agents. Based on the topology of the active site of cholinesterases and other target proteins involved in the pathogenesis of AD, we have designed and synthesized tacrine-trolox and tacrine-tryptoline hybrids with various linker chain lengths. The hybrids containing the trolox moiety (8a-8d) showed moderate to high TcAChE inhibition (IC50: 17.37 - 2200 nM), eqBuChE inhibition (IC50: 3.16 – 128.82 nM) and free radical scavenging activities (IC50: 11.48 – 49.23 µM). The hybrids with longer linker chain lengths in general showed better ChE inhibitory activity. As expected, free radical scavenging activities were not significantly affected by varying linker chain lengths. The hybrid compound containing the tryptoline moiety linked with a 7 carbon spacer to tacrine (14) displayed the best AChE and BuChE inhibitory activity (IC50 = 17.37 and 3.16 nM). Docking experiments exhibited that compounds 8d and 14 were able to bind to both the CAS and PAS of TcAChE and eqBuChE, suggesting that they will be able to inhibit ChE induced Aβ aggregation. Novel multi-target agents that exhibit good ChE inhibition (8d and 14) and anti-oxidant (8d) activity were identified as suitable candidates for further investigation.

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Section: Resultssupporting

confidence: 70%

Tacrine, Trolox and Tryptoline as Lead Compounds for the Design and Synthesis of Multi-target Agents for Alzheimer’s Disease Therapy

Teponnou

Joubert

Malan

2017

TOMCJ

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“…Novel multi-target directed ligands (tacrine-pyridine-3-carboxamide hybrids) 1 and 2 were selected upon their IC 50 values (1: hAChE IC 50 = 3.81 ± 2.4 μM; 2: hAChE IC 50 = 0.097 ± 0.009 μM) to confront the multifactorial nature of AD by combining hAChE inhibitor with antioxidant action provided by hydrazinonicotinamide (38)(39). Based on the inhibitory properties, compound 2 was able to increase the therapeutic efficacy of antidotal treatment of acute soman poisoning, while analogue of 7-methoxytacrine (compound 1) is not effective because the potency of 7-methoxytacrine to inhibit AChE is generally much lower compared to tacrine (7-methoxytacrine: hAChE IC 50 = 10.00 ± 1.0 μM; tacrine: hAChE IC 50 = 0.32 ± 0.01 μM) (40). Generally, the tacrine analogues exerting the sufficient prophylactic efficacy due to their potency to reversibly inhibit AChE in the peripheral and central nervous systems are more toxic.…”

Section: Discussionmentioning

confidence: 99%

The Evaluation of Benefit of Newly Prepared Reversible Inhibitors of Acetylcholinesterase and Commonly Used Pyridostigmine as Pharmacological Pretreatment of Soman-Poisoned Mice

Kassa

Korábečný

Nepovimová

2017

Acta Med. (Hradec Kralove, Czech Repub.)

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A B ST R AC T Aim: The ability of four newly prepared reversible inhibitors of acetylcholinesterase (6-chlorotacrine, 7-phenoxytacrine, compounds 1 and 2) and currently used carbamate pyridostigmine to increase the resistance of mice against soman and the efficacy of antidotal treatment of soman-poisoned mice was evaluated. Methods: The evaluation of the effect of pharmacological pretreatment is based on the identification of changes of soman-induced toxicity that was evaluated by the assessment of its LD 50 value and its 95% confidence limit using probitlogarithmical analysis of death occurring within 24 h after administration of soman. Results: 6-chlorotacrine was only able to markedly protect mice against acute toxicity of soman. In addition, the pharmacological pretreatment with 6-chlorotacrine or compound 2 was able to increase the efficacy of antidotal treatment (the oxime HI-6 in combination with atropine) of soman-poisoned mice. The other newly prepared reversible inhibitors of acetylcholinesterase (7-phenoxytacrine, compound 1) as well as commonly used pyridostigmine did not influence the efficacy of antidotal treatment. Conclusion: These findings demonstrate that pharmacological pretreatment of somanpoisoned mice can be promising and useful in the case of administration of 6-chlorotacrine and partly compound 2. K E Y WO R D S soman; reversible inhibitors of acetylcholinesterase; antidotes; pharmacological pretreatment; mice

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“…The IC 50 value of 6-chlorotacrine was calculated for human AChE and corresponds to 0.2 ± 0.001 µM. It means that 6-chlorotacrine is very strong inhibitor of AChE (37). It is able to increase the resistance of experimental animals against Tab.…”

Section: Discussionmentioning

confidence: 99%

Dose Dependent Prophylactic Efficacy of 6-Chlorotacrine in Soman-Poisoned Mice

Kassa

Korábečný

2017

Acta Med. (Hradec Kralove, Czech Repub.)

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A B ST R AC T Aim: The influence of the dose on the ability of promising newly prepared reversible inhibitor of acetylcholinesterase (6-chlorotacrine) to increase the resistance of mice against soman and the efficacy of antidotal treatment of soman-poisoned mice was evaluated. Methods: The evaluation of the effect of pharmacological pretreatment is based on the identification of changes of soman-induced toxicity that was evaluated by the assessment of its LD 50 value and its 95% confidence limit using probit-logarithmical analysis of death occurring within 24 hrs after administration of soman. Results: The dose of 6-chlorotacrine significantly influences the prophylactic efficacy of 6-chlorotacrine. Its highest dose was only able to significantly protect mice against acute toxicity of soman and increase the efficacy of antidotal treatment (atropine in combination with the oxime HI-6) of soman-poisoned mice. In addition, the highest dose of 6-chlorotacrine was significantly more effective to protect mice from soman poisoning than its lowest dose. Conclusion: These findings demonstrate the important influence of the dose of 6-chlorotacine on its prophylactic efficacy in the case of pharmacological pretreatment of soman poisoning in mice.

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Tacrine–Trolox Hybrids: A Novel Class of Centrally Active, Nonhepatotoxic Multi-Target-Directed Ligands Exerting Anticholinesterase and Antioxidant Activities with Low In Vivo Toxicity

Cited by 123 publications

References 70 publications

Tacrine, Trolox and Tryptoline as Lead Compounds for the Design and Synthesis of Multi-target Agents for Alzheimer’s Disease Therapy

Tacrine, Trolox and Tryptoline as Lead Compounds for the Design and Synthesis of Multi-target Agents for Alzheimer’s Disease Therapy

The Evaluation of Benefit of Newly Prepared Reversible Inhibitors of Acetylcholinesterase and Commonly Used Pyridostigmine as Pharmacological Pretreatment of Soman-Poisoned Mice

Dose Dependent Prophylactic Efficacy of 6-Chlorotacrine in Soman-Poisoned Mice

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