NanoBRET: A Quantitative Technique to Measure Kinase Target Engagement in Live Cells (NanoBRET: A Quantitative Technique to Measure Kinase Target Engagement in Live Cells)
United States of America
23 January 2018
Although a number of extracellular techniques exist to quantitatively measure kinase-ligand binding or inhibition, until now there was no means by which to quantitate target occupancy or drug affinity in live cells. In this webinar we report the use of an energy transfer technique (NanoBRET) in the first quantitative approach to profiling kinase occupancy of a test compound inside live cells.
Optional / Voluntary
Students, Researchers, Regulators and policy-makers, Teachers and educators, Technicians, Managers, Scientific officers / Project managers, Professionals (e.g. veterinarians), General public
Academia, Industry, Governmental bodies, Contract Research Organizations (CROs), Consulting, SMEs
University (Bachelor), University (Master), University (Doctoral education), Postdoctoral (teaching and research), Continuing Professional Development
In vitro methods
Full coverage (a dedicated course)
|Details on the topic or technology covered:||
Intracellular target selectivity is a key aspect of pharmacological mechanism. Although a number of acellular techniques have been developed to quantitatively measure kinase binding or enzymatic inhibition, currently no biophysical approaches exist that offer quantitative analysis of target occupancy or drug affinity in live cells. Here we report the application of an energy transfer technique (NanoBRET) that enables the first quantitative approach to broadly profile kinase occupancy under thermodynamic equilibrium with the test compound inside live cells. This approach enabled a mechanistic interrogation of the potency offsets observed between cellular and acellular analysis of kinase engagement, and uncovered improved intracellular selectivity profiles for certain clinically-relevant multi-kinase inhibitors. The energy transfer technique can also be performed in real time, enabling assessments of compound residence time. Applications of NanoBRET for the measurements of target engagement and residence time for ATP-competitive and non-competitive inhibitors will be presented.
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