What question did this study set out to answer?

The aim is to develop selective degraders of SMARCA2 for the treatment of SMARCA4 deficient tumors, utilizing DCAF16 mechanisms.

April 5, 2026

Abstract 4606: Rational development of novel DCAF16-mediated SMARCA2 selective Targeted Glues™ for the treatment of SMARCA4 deficient tumors

Key Points

The aim is to develop selective degraders of SMARCA2 for the treatment of SMARCA4 deficient tumors, utilizing DCAF16 mechanisms.
Designed and optimized SMARCA2 degraders exploiting Targeted Glue™ mechanisms.
Conducted global proteomics to assess degradation specificity.
Performed in vitro and in vivo studies to test degradation efficacy and selectivity.
Used structural studies to optimize degradation potency and kinetics.
Achieved over 95% degradation of SMARCA2 within 4 hours.
Demonstrated near complete selectivity for SMARCA2 over SMARCA4.
Validated degradation mechanism through E3-ligase knock-out and cysteine mutant experiments.
Optimized compounds capable of fast, deep degradation of SMARCA2 in a relevant disease model.

Abstract

Abstract SMARCA2 and SMARCA4 are mutually exclusive catalytic subunits of the SWI/SNF chromatin remodelling complex. In non-small cell lung cancer (NSCLC), SMARCA4 mutations are observed in 5% patients and are associated with poor prognosis and advanced disease. Selective degradation of SMARCA2 exploits paralogue dependency in SMARCA4-deficient tumors to impact disease burden with minimal toxicity in normal tissues. Here, we report the rational design and optimisation of a novel class of SMARCA2 degraders that exploit a Targeted Glue™ mechanism to induce DCAF16-dependent proteasomal degradation. Amphista’s degraders potently drive 95% SMARCA2 degradation within 4 hours, resulting in deep suppression of biomarkers KRT80 and PLAU in vitro. Further, we observe exceptional degradation specificity for SMARCA2, as revealed by global proteomics and, critical for a best-in-class molecule, achieve near complete selectivity over SMARCA4 in a SMARCA4 WT model. Comprehensive mode of action studies, including E3-ligase knock-out and cysteine mutant rescue experiments demonstrate that our SMARCA2 Targeted Glues™ induce degradation via selective recruitment of DCAF16 and covalent interaction with a single DCAF16 cysteine residue. Structural studies, including generation of multiple high resolution (sub-3Å) cryo EM ternary complex structures have enabled informed structure-activity relationship optimisations of degradation potency, kinetics and selectivity. Consequently, optimised compounds can deliver fast, deep degradation of SMARCA2 as demonstrated in-vivo in a disease-relevant SMARCA4 mutant model. We have achieved compound profiles that uniquely position Amphista to deliver class-leading SMARCA2 degraders for the treatment of SMARCA4-mutant NSCLC. Citation Format: James T. Lynch,Martin Ambler,Nicole Zordan,Claudia De Fusco,Laura Casares Perez,Kathryn Bosson,Alexander Fawcett,Paula MacGregor,Tarun Narwani,Colin T. Davies,Mahad Gatti Lou,Edward Hooper-Greenhill,Liliana Greger,Giles A. Brown,Martin Pass,Louise K. Modis. Rational development of novel DCAF16-mediated SMARCA2 selective Targeted Glues™ for the treatment of SMARCA4 deficient tumors abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2026; Part 1 (Regular Abstracts); 2026 Apr 17-22; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2026;86(7 Suppl):Abstract nr 4606.

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Abstract 4606: Rational development of novel DCAF16-mediated SMARCA2 selective Targeted Glues™ for the treatment of SMARCA4 deficient tumors

Key Points

Abstract

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