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1.  A Novel High-Throughput 1536-well Notch1 γ-Secretase AlphaLISA Assay 
The Notch pathway plays a crucial role in cell fate decisions through controlling various cellular processes. Overactive Notch signal contributes to cancer development from leukemias to solid tumors. γ-Secretase is an intramembrane protease responsible for the final proteolytic step of Notch that releases the membrane-tethered Notch fragment for signaling. Therefore, γ-secretase is an attractive drug target in treating Notch-mediated cancers. However, the absence of high-throughput γ-secretase assay using Notch substrate has limited the identification and development of γ-secretase inhibitors that specifically target the Notch signaling pathway. Here, we report on the development of a 1536-well γ-secretase assay using a biotinylated recombinant Notch1 substrate. We effectively assimilated and miniaturized this newly developed Notch1 substrate with the AlphaLISA detection technology and demonstrated its robustness with a calculated Z’ score of 0.66. We further validated this optimized assay by performing a pilot screening against a chemical library consisting of ~5,600 chemicals and identified known γ-secretase inhibitors e.g. DAPT, and Calpeptin; as well as a novel γ-secretase inhibitor referred to as KD-I-085. This assay is the first reported 1536-well AlphaLISA format and represents a novel high-throughput Notch1-γ-secretase assay, which provides an unprecedented opportunity to discover Notch-selective γ-secretase inhibitors that can be potentially used for the treatment of cancer and other human disorders.
PMCID: PMC3664143  PMID: 23448293
Alzheimer disease; AlphaLISA; cancer; γ-secretase; γ-secretase modulators; Notch signaling
2.  A Miniaturized 1536-Well Format γ-Secretase Assay 
γ-Secretase is an aspartyl protease that cleaves multiple substrates including the amyloid precursor protein (APP) and the Notch proteins. Abnormal proteolysis of APP is involved in the pathogenesis of Alzheimer’s disease (AD) and overactive Notch signaling plays an oncogenic role in a variety of cancers. γ-Secretase has emerged as a promising target for drug development in the treatment of AD and cancer. Assays with increased capacity for high-throughput screening would allow for quicker screening of chemical libraries and facilitate inhibitor development. We have developed a homogeneous time-resolved fluorescence (HTRF)-based assay that makes use of a novel biotinylated recombinant APP substrate and solubilized membrane preparation as the source of the γ-secretase enzyme. The assay was miniaturized to a 1536-well format and validated in a pilot screen against a library of ∼3,000 compounds. The overall assay performance was robust due to a calculated Z′ factor of 0.74 and its demonstrated ability to identify known γ-secretase inhibitors such as pepstatin A. This validated assay can readily be used for primary screening against large chemical libraries searching for novel inhibitors of γ-secretase activity that may represent potential therapeutics for AD and a variety of neoplasms.
doi:10.1089/adt.2009.0202
PMCID: PMC3096545  PMID: 19715456

Results 1-2 (2)