Discovery of Conformationally Restricted Human Glutaminyl Cyclase Inhibitors as Potent Anti-Alzheimer's Agents by Structure-Based Design.
Van-Hai HoangVan T H NgoMinghua CuiNguyen Van ManhPhuong-Thao TranJihyae AnnHee-Jin HaHee KimKwanghyun ChoiYoung-Ho KimHyerim ChangStephani Joy Y MacalinoJiyoun LeeSun ChoiJeewoo LeePublished in: Journal of medicinal chemistry (2019)
Alzheimer's disease (AD) is an incurable, progressive neurodegenerative disease whose pathogenesis cannot be defined by one single element but consists of various factors; thus, there is a call for alternative approaches to tackle the multifaceted aspects of AD. Among the potential alternative targets, we aim to focus on glutaminyl cyclase (QC), which reduces the toxic pyroform of β-amyloid in the brains of AD patients. On the basis of a putative active conformation of the prototype inhibitor 1, a series of N-substituted thiourea, urea, and α-substituted amide derivatives were developed. The structure-activity relationship analyses indicated that conformationally restrained inhibitors demonstrated much improved QC inhibition in vitro compared to nonrestricted analogues, and several selected compounds demonstrated desirable therapeutic activity in an AD mouse model. The conformational analysis of a representative inhibitor indicated that the inhibitor appeared to maintain the Z-E conformation at the active site, as it is critical for its potent activity.
Keyphrases
- structure activity relationship
- molecular docking
- molecular dynamics simulations
- mouse model
- end stage renal disease
- ejection fraction
- cognitive decline
- chronic kidney disease
- endothelial cells
- multiple sclerosis
- peritoneal dialysis
- small molecule
- cross sectional
- high throughput
- crystal structure
- single molecule
- anti inflammatory
- mild cognitive impairment