Design, synthesis and anti-AD effects of dual inhibitor targeting glutaminyl cyclase/GSK-3ß.

Alzheimer's disease (AD), multifactorial disease, is recognized as one of the most common forms of dementia, and the efficacy of anti-AD drugs is limited clinically. Up-regulated glutaminyl cyclase (QC) and glycogen synthase kinase-3ß (GSK-3ß) have been identified as two critical elements involved in AD recently. Here, a series of novel chemicals containing maleimide and imidazole motif were designed and synthesized as dual inhibitors targeting QC and GSK-3ß. Based on primary screening, compound 2 (2.26 µM), 5 (2.37 µM), 8 (1.34 µM), 21 (2.44 µM), 25 (0.36 µM), 27 (1.76 µM), 28 (1.04 µM), 33 (2.08 µM) and 34 (2.33 µM) exhibited notable human QC (hQC) inhibitory potency, while compound 1 (0.014 µM), 7 (0.04 µM), 8 (0.057 µM), 19 (0.034 µM), 24 (0.014 µM), 32 (0.032 µM), 38 (0.051 µM), 39 (0.044 µM), 44 (0.048 µM), 47 (0.011 µM), 49 (0.021 µM) and so on showed remarkable GSK-3ß inhibitory activities. And as expected, these chemicals possessed significant inhibitory potency on both hQC and GSK-3ß, such as compound 1 (2.80 and 0.014 µM), 8 (1.34 and 0.057 µM), 25 (0.36 and 0.15 µM), 27 (1.76 and 0.069 µM), 28 (1.04 and 0.090 µM), 33 (2.08 and 0.19 µM), 34 (2.33 and 0.11 µM), 35 (2.55 and 0.14 µM), 36 (2.34 and 0.11 µM), etc. Subsequent in vivo studies demonstrated that compound 8 attenuated cognitive deficits and decreased the anxiety-like behavior in 3 × Tg-AD mice. The treatment decreased both pE-Aß and Aß accumulation by inhibiting the activity of QC, and decreased the hyperphosphorylation of Tau by reducing the levels of GSK-3ß in the brains of AD mice. Results obtained in this research suggested that these novel compounds could be supposed as potential anti-AD agents targeting QC and GSK-3ß.

Repurposing FDA-Approved Compounds for the Discovery of Glutaminyl Cyclase Inhibitors as Drugs Against Alzheimer's Disease.

Alzheimer's disease (AD) is one of the most common neurodegenerative causes of dementia, the pathology of which is still not much clear. It's challenging to discover the disease modifying agents for the prevention and treatment of AD over the years. Emerging evidence has been accumulated to reveal the crucial role of up-regulated glutaminyl cyclase (QC) in the initiation of AD. In the current study, the QC inhibitory potency of a library consisting of 1621 FDA-approved compounds was assessed. A total of 54 hits, 3.33 % of the pool, exhibited QC inhibitory activities. The Ki of the top 5 compounds with the highest QC inhibitory activities were measured. Among these selected hits, compounds affecting neuronal signaling pathways and other mechanisms were recognized. Moreover, several polyphenol derivatives with QC inhibitory activities were also identified. Frameworks and subsets contained in these hits were analyzed. Taken together, our results may contribute to the discovery and development of novel QC inhibitors as potential anti-AD agents.