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  • BAF complex vulnerabilities in cancer demonstrated via structure-based PROTAC design.

BAF complex vulnerabilities in cancer demonstrated via structure-based PROTAC design.

Nature chemical biology (2019-06-11)
William Farnaby, Manfred Koegl, Michael J Roy, Claire Whitworth, Emelyne Diers, Nicole Trainor, David Zollman, Steffen Steurer, Jale Karolyi-Oezguer, Carina Riedmueller, Teresa Gmaschitz, Johannes Wachter, Christian Dank, Michael Galant, Bernadette Sharps, Klaus Rumpel, Elisabeth Traxler, Thomas Gerstberger, Renate Schnitzer, Oliver Petermann, Peter Greb, Harald Weinstabl, Gerd Bader, Andreas Zoephel, Alexander Weiss-Puxbaum, Katharina Ehrenhöfer-Wölfer, Simon Wöhrle, Guido Boehmelt, Joerg Rinnenthal, Heribert Arnhof, Nicola Wiechens, Meng-Ying Wu, Tom Owen-Hughes, Peter Ettmayer, Mark Pearson, Darryl B McConnell, Alessio Ciulli
ABSTRACT

Targeting subunits of BAF/PBAF chromatin remodeling complexes has been proposed as an approach to exploit cancer vulnerabilities. Here, we develop proteolysis targeting chimera (PROTAC) degraders of the BAF ATPase subunits SMARCA2 and SMARCA4 using a bromodomain ligand and recruitment of the E3 ubiquitin ligase VHL. High-resolution ternary complex crystal structures and biophysical investigation guided rational and efficient optimization toward ACBI1, a potent and cooperative degrader of SMARCA2, SMARCA4 and PBRM1. ACBI1 induced anti-proliferative effects and cell death caused by SMARCA2 depletion in SMARCA4 mutant cancer cells, and in acute myeloid leukemia cells dependent on SMARCA4 ATPase activity. These findings exemplify a successful biophysics- and structure-based PROTAC design approach to degrade high profile drug targets, and pave the way toward new therapeutics for the treatment of tumors sensitive to the loss of BAF complex ATPases.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
N-Acetyl-S-(2-amino-9-(4-fluorobenzyl)-6-oxo-6,9-dihydro-1H-purin-8-yl)-L-cysteine, ≥95%
Millipore
Benzonase® Nuclease, Purity > 90%