Teponnou_2017_Open.Med.Chem.J_11_24

Reference

Title : Tacrine, Trolox and Tryptoline as Lead Compounds for the Design and Synthesis of Multi-target Agents for Alzheimer's Disease Therapy - Teponnou_2017_Open.Med.Chem.J_11_24
Author(s) : Teponnou GAK , Joubert J , Malan SF
Ref : Open Med Chem J , 11 :24 , 2017
Abstract :

The versatile biological activities of tacrine, trolox and beta-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 microM). 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 Abeta 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.

PubMedSearch : Teponnou_2017_Open.Med.Chem.J_11_24
PubMedID: 28567126

Related information

Citations formats

Teponnou GAK, Joubert J, Malan SF (2017)
Tacrine, Trolox and Tryptoline as Lead Compounds for the Design and Synthesis of Multi-target Agents for Alzheimer's Disease Therapy
Open Med Chem J 11 :24

Teponnou GAK, Joubert J, Malan SF (2017)
Open Med Chem J 11 :24