Aims: We recently described multifunctional tools (2a-c) as potent inhibitors of human Cholinesterases (ChEs) also able to modulate events correlated with Aβ aggregation. We herein propose a thorough biological and computational analysis aiming at understanding their mechanism of action at the molecular level. Methods: We determined the inhibitory potency of 2a-c on Aβ1-42 self-aggregation, the interference of 2a with the toxic Aβ oligomeric species and with the postaggregation states by capillary electrophoresis analysis and transmission electron microscopy. The modulation of Aβ toxicity was assessed for 2a and 2b on human neuroblastoma cells. The key interactions of 2a with Aβ and with the Aβ-preformed fibrils were computationally analyzed. 2a-c toxicity profile was also assessed (human hepatocytes and mouse fibroblasts). Results: Our prototypical pluripotent analogue 2a interferes with Aβ oligomerization process thus reducing Aβ oligomers-mediated toxicity in human neuroblastoma cells. 2a also disrupts preformed fibrils. Computational studies highlighted the bases governing the diversified activities of 2a. Conclusion: Converging analytical, biological, and in silico data explained the mechanism of action of 2a on Aβ1-42 oligomers formation and against Aβ-preformed fibrils. This evidence, combined with toxicity data, will orient the future design of safer analogues. © 2014 John Wiley & Sons Ltd.

Brogi, S., Butini, S., Maramai, S., Colombo, R., Verga, L., Lanni, C., et al. (2014). Disease modifying anti-Alzheimer’s drugs: inhibitors of human cholinesterases interfering with β-amyloid aggregation. CNS NEUROSCIENCE & THERAPEUTICS, 20(7), 624-632 [10.1111/cns.12290].

Disease modifying anti-Alzheimer’s drugs: inhibitors of human cholinesterases interfering with β-amyloid aggregation

Butini, Stefania;Lamponi, Stefania;Andreassi, Marco;Campiani, Giuseppe;Gemma, Sandra
2014-01-01

Abstract

Aims: We recently described multifunctional tools (2a-c) as potent inhibitors of human Cholinesterases (ChEs) also able to modulate events correlated with Aβ aggregation. We herein propose a thorough biological and computational analysis aiming at understanding their mechanism of action at the molecular level. Methods: We determined the inhibitory potency of 2a-c on Aβ1-42 self-aggregation, the interference of 2a with the toxic Aβ oligomeric species and with the postaggregation states by capillary electrophoresis analysis and transmission electron microscopy. The modulation of Aβ toxicity was assessed for 2a and 2b on human neuroblastoma cells. The key interactions of 2a with Aβ and with the Aβ-preformed fibrils were computationally analyzed. 2a-c toxicity profile was also assessed (human hepatocytes and mouse fibroblasts). Results: Our prototypical pluripotent analogue 2a interferes with Aβ oligomerization process thus reducing Aβ oligomers-mediated toxicity in human neuroblastoma cells. 2a also disrupts preformed fibrils. Computational studies highlighted the bases governing the diversified activities of 2a. Conclusion: Converging analytical, biological, and in silico data explained the mechanism of action of 2a on Aβ1-42 oligomers formation and against Aβ-preformed fibrils. This evidence, combined with toxicity data, will orient the future design of safer analogues. © 2014 John Wiley & Sons Ltd.
2014
Brogi, S., Butini, S., Maramai, S., Colombo, R., Verga, L., Lanni, C., et al. (2014). Disease modifying anti-Alzheimer’s drugs: inhibitors of human cholinesterases interfering with β-amyloid aggregation. CNS NEUROSCIENCE & THERAPEUTICS, 20(7), 624-632 [10.1111/cns.12290].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11365/48189
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