Creating a more strategic small molecule biophysical hit characterization workflow

Christopher Fotsch; Debaleena Basu; Ryan Case; Qing Chen; Pratibha C. Koneru; Mei-Chu Lo; Rachel Ngo; Pooja Sharma; Amit Vaish; Xiang Yi; Stephan G. Zech; Peter Hodder

SLAS Discovery (Jun 2024)

Creating a more strategic small molecule biophysical hit characterization workflow

Christopher Fotsch,
Debaleena Basu,
Ryan Case,
Qing Chen,
Pratibha C. Koneru,
Mei-Chu Lo,
Rachel Ngo,
Pooja Sharma,
Amit Vaish,
Xiang Yi,
Stephan G. Zech,
Peter Hodder

Affiliations

Christopher Fotsch: Lead Discovery and Characterization Group, Amgen Research, Thousand Oaks CA, USA; Corresponding author.
Debaleena Basu: Lead Discovery and Characterization Group, Amgen Research, South San Francisco CA, USA
Ryan Case: Lead Discovery and Characterization Group, Amgen Research, South San Francisco CA, USA
Qing Chen: Lead Discovery and Characterization Group, Amgen Research, Thousand Oaks CA, USA
Pratibha C. Koneru: Lead Discovery and Characterization Group, Amgen Research, South San Francisco CA, USA
Mei-Chu Lo: Lead Discovery and Characterization Group, Amgen Research, South San Francisco CA, USA
Rachel Ngo: Lead Discovery and Characterization Group, Amgen Research, South San Francisco CA, USA
Pooja Sharma: Lead Discovery and Characterization Group, Amgen Research, Thousand Oaks CA, USA
Amit Vaish: Lead Discovery and Characterization Group, Amgen Research, Thousand Oaks CA, USA
Xiang Yi: Lead Discovery and Characterization Group, Amgen Research, South San Francisco CA, USA
Stephan G. Zech: Lead Discovery and Characterization Group, Amgen Research, Thousand Oaks CA, USA
Peter Hodder: Lead Discovery and Characterization Group, Amgen Research, Thousand Oaks CA, USA

Journal volume & issue: Vol. 29, no. 4
p. 100159

Abstract

Read online

To confirm target engagement of hits from our high-throughput screening efforts, we ran biophysical assays on several hundreds of hits from 15 different high-throughput screening campaigns. Analyzing the biophysical assay results from these screening campaigns led us to conclude that we could be more strategic in our biophysical analysis of hits by first confirming activity in a thermal shift assay (TSA) and then confirming activity in either a surface plasmon resonance (SPR) assay or a temperature-related intensity change (TRIC) assay. To understand how this new workflow shapes the quality of the final hits, we compared TSA/SPR or TSA/TRIC confirmed and unconfirmed hits to one another using four measures of compound quality: quantitative estimate of drug-likeness (QED), Pan-Assay Interference Compounds (PAINS), promiscuity, and aqueous solubility. In general, we found that the biophysically confirmed hits performed better in the compound quality metrics than the unconfirmed hits, demonstrating that our workflow not only confirmed target engagement of the hits but also enriched for higher quality hits.

Published in SLAS Discovery

ISSN: 2472-5552 (Print); 2472-5560 (Online)
Publisher: Elsevier
Country of publisher: United States
LCC subjects: Medicine: Medicine (General); Technology: Chemical technology: Biotechnology
Website: https://www.journals.elsevier.com/slas-discovery

About the journal

Abstract

Keywords