An exo-cell assay for examining real-time γ-secretase activity and inhibition

γ-Secretase is an aspartyl protease that cleaves multiple substrates that are involved in broad biological processes ranging from stem cell development to neurodegeneration. The investigation of γ-secretase has been limited by currently available assays that require genetic or biochemical manipulation in the form of substrate transfection or membrane preparation. Here we report an exo-cell assay that is capable of characterizing γ-secretase activity in any cellular system without limitation. Using a highly active, recombinant substrate this assay can quickly and easily ascertain the status of γ-secretase activity in cell systems and patient samples. We have applied this method to determine the activity of γ-secretase in primary cell samples where transfection and/or membrane isolation are not viable options. Importantly, it allows for the detection of real time γ-secretase activity after inhibitor or drug treatment. The application of this assay to determine the role of γ-secretase in physiological and pathological conditions will greatly facilitate our characterization of this complex protease and help in the development and evaluation of γ-secretase-targeted therapies in Alzheimer's disease or a variety of neoplasms

La confiance mutuelle dans l'espace pénal européen/Mutual Trust in the European Criminal Area

L'ouvrage constitue une réflexion approfondie sur la problématique de la confiance mutuelle dans l'espace pénal européen, un thème d’une brûlante actualité dès lors que l'importance de la confiance mutuelle dans cet espace va croissant

An exo-cell assay for examining real-time γ-secretase activity and inhibition

Abstract γ-Secretase is an aspartyl protease that cleaves multiple substrates that are involved in broad biological processes ranging from stem cell development to neurodegeneration. The investigation of γ-secretase has been limited by currently available assays that require genetic or biochemical manipulation in the form of substrate transfection or membrane preparation. Here we report an exo-cell assay that is capable of characterizing γ-secretase activity in any cellular system without limitation. Using a highly active, recombinant substrate this assay can quickly and easily ascertain the status of γ-secretase activity in cell systems and patient samples. We have applied this method to determine the activity of γ-secretase in primary cell samples where transfection and/or membrane isolation are not viable options. Importantly, it allows for the detection of real time γ-secretase activity after inhibitor or drug treatment. The application of this assay to determine the role of γ-secretase in physiological and pathological conditions will greatly facilitate our characterization of this complex protease and help in the development and evaluation of γ-secretase-targeted therapies in Alzheimer's disease or a variety of neoplasms.</p

A phase 1 study of IDH305 in patients with IDH1(R132)-mutant acute myeloid leukemia or myelodysplastic syndrome

Purpose Isocitrate dehydrogenase enzyme 1 (IDH1) mutations at 132nd amino acid residue (R132*) result in the cellular accumulation of the oncometabolite, 2-hydroxyglutarate (2-HG). IDH305 is an orally bioavailable, brain-penetrant, mutant-selective allosteric IDH1 inhibitor demonstrating target engagement in preclinical models. This first-in human study was designed to identify the recommended dose for expansion/maximum tolerated dose of IDH305 in patients with IDH1(R132)-mutant acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS). Methods IDH305 was given at doses 75-750 mg twice daily in 41 patients with IDH1(R132)-mutant AML/MDS. Dose escalation was designed using Bayesian hierarchical model with overdose control principle and relationship with dose-limiting toxicity. Results IDH305 exhibited rapid absorption with mean T-1/2 approximately 4-10 h across doses. Interpatient variability was moderate and exposure increased with dose in a less than dose proportional manner. Most patients (35/41) demonstrated target engagement with reduction in 2-HG concentration at all doses. Complete remission (CR) or CR with incomplete count recovery occurred in 10/37 (27%) patients with AML and 1/ 4 patients with MDS. Adverse events (AEs) suspected to be related to study drug were reported in 53.7% of patients: increased blood bilirubin (14.6%), nausea (14.6%), increased alanine aminotransferase and aspartate aminotransferase (12.2%, each); most frequent grade 3 or 4 AEs were differentiation syndrome and tumor lysis syndrome (n = 3; 7.3%, each). Hepatotoxicity was manageable with dose modification. Conclusion Due to potentially narrow therapeutic window, the study was prematurely halted and recommended phase 2 dose could not be declared