The need for the development of specific and robust methodologies to elucidate the intricate pathological mechanisms of neurodegenerative diseases and discover effective treatments for prevention and Show more
The need for the development of specific and robust methodologies to elucidate the intricate pathological mechanisms of neurodegenerative diseases and discover effective treatments for prevention and remediation is evident. Alzheimer's disease, in particular, has become more prevalent as the global population has aged. β-Secretase, the β-site amyloid precursor protein cleaving enzyme (BACE1), is the protease that produces the β-amyloid peptide, which is considered one of the driving factors of Alzheimer's disease and an important target for treatment development. However, an understanding of its activity, modulation, and regulation is far from complete. This is in large part due to the complex nature of following its activity. Beyond the common requirements for all biosensors (ease of preparation and use), BACE1 probes also demand both stability at acidic pH and membrane localization. To overcome these hurdles, we exploit the modular self-assembly provided by fluorescent quantum dot (QD) sensors. As compared to other fluorophores, QDs provide enhanced fluorescence brightness and photostability, and their large surface area enables functionalization with peptide substrates together with targeting elements that localize the sensor to the areas of maximal BACE1 activity, all achieved through His-tag self-assembly. Show less