A series of β-secretase peptidomimetic inhibitors with Leu*Ala hydroxyethylene dipeptide isostere were synthesized and their β-secretase inhibitory activities were measured. The most potent compound N9 showed an inhibitory rate of 59.66% (10 mg/mL). Compound N9 might be further modified by means of computational chemical methodology.
To find a reasonable way to prepare the designed CPP32 inhibitors. Method Ugifour-component condensation reaction was used to synthesize peptide mimic CPP32 inhibitors; ResultsA key isocyanide component (aspartate-derived isocyanide 3) and one of the designed CPP32inhibitors 4 (as a template) were synthesized; Conclusion The CPP32 inhibitor 4 was synthesized bythe newly developed procedure, which is an Ugi four-component condensation reaction based onaspartate-derived isocyanide 3. This method can be used to build up the CPP32 inhibitor library.
Aim To discuss in depth the synthesis of hydroxyethylene dipeptide-based β-secretase inhibitors; Methods Organic reactions such as nucleophilic addition and substitution assisted by organometallic agents, catalytic hydrogenation, and classic peptide coupling were used to synthesize peptidomimetic β-secretase inhibitors. Results Ideal reaction conditions and potential problems were investigated, and one of the designed β-secretase inhibitors 13 (as a model) was synthesized successfully; Conclusion This approach might be used to build up the β-secretase inhibitor library and to search for new molecular candidates.
