| Title : Dual-site binding of bivalent 4-aminopyridine- and 4-aminoquinoline-based AChE inhibitors: contribution of the hydrophobic alkylene tether to monomer and dimer affinities - Han_1999_Bioorg.Med.Chem_7_2569 |
| Author(s) : Han YF , Li CP , Chow E , Wang H , Pang YP , Carlier PR |
| Ref : Bioorganic & Medicinal Chemistry , 7 :2569 , 1999 |
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Abstract :
Three series of 4-aminopyridine-and 4-aminoquinoline based symmetrical bivalent acetylcholinesterase (AChE) inhibitors were prepared and compared to previously synthesized dimers of 9-amino-1,2,3,4-tetrahydroacridine (tacrine). In each case significant, tether length-dependent increases in AChE inhibition potency and selectivity (up to 3000-fold) were observed relative to the corresponding monomer, indicating dual-site binding of these inhibitors to AChE. Assay of the corresponding alkylated monomers revealed that the alkylene tether played at least two complementary roles in the dimer series. In addition to reducing the entropy loss that occurs on binding both monomeric units of the dimer, the alkylene tether can also significantly improve potency through hydrophobic effects. |
| PubMedSearch : Han_1999_Bioorg.Med.Chem_7_2569 |
| PubMedID: 10632067 |
| Inhibitor | Bivalent-4-Aminopyridine-12i |
| Chemical | 4-aminopyridine |
Han YF, Li CP, Chow E, Wang H, Pang YP, Carlier PR (1999)
Dual-site binding of bivalent 4-aminopyridine- and 4-aminoquinoline-based AChE inhibitors: contribution of the hydrophobic alkylene tether to monomer and dimer affinities
Bioorganic & Medicinal Chemistry
7 :2569
Han YF, Li CP, Chow E, Wang H, Pang YP, Carlier PR (1999)
Bioorganic & Medicinal Chemistry
7 :2569