Structure-Guided Design of ISOX-DUAL-Based Degraders Targeting BRD4 and CBP/EP300: A Case of Degrader Collapse

Anthony
K. Edmonds; Dimitrios-Ilias Balourdas; Graham P. Marsh; Robert Felix; Bradley Brasher; Jeff Cooper; Cari Graber-Feesl; Madhu Kollareddy; Karim Malik; Helen Stewart; Timothy J. T. Chevassut; Ella Lineham; Simon Morley; Oleg Fedorov; James Bennett; Mohan B. Rajasekaran; Samuel Ojeda; Drew A. Harrison; Christopher J. Ott; Andreas C. Joerger; Hannah J. Maple; John Spencer

doi:10.1021/acs.jmedchem.5c00395

Structure-Guided Design of ISOX-DUAL-Based Degraders Targeting BRD4 and CBP/EP300: A Case of Degrader Collapse

Anthony K. Edmonds, Dimitrios-Ilias Balourdas, Graham P. Marsh, Robert Felix, Bradley Brasher, Jeff Cooper, Cari Graber-Feesl, Madhu Kollareddy, Karim Malik, Helen Stewart, Timothy J. T. Chevassut, Ella Lineham, Simon Morley, Oleg Fedorov, James Bennett, Mohan B. Rajasekaran, Samuel Ojeda, Drew A. Harrison, Christopher J. Ott, Andreas C. Joerger^*Hannah J. Maple^*, John Spencer^*

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

1 Citation (Scopus)

Abstract

Degraders with dual activity against BRD4 and CBP/EP300 were designed. A structure-guided design approach was taken to assess and test potential exit vectors on the dual BRD4 and CBP/EP300 inhibitor, ISOX-DUAL. Candidate degrader panels revealed that VHL-recruiting moieties could mediate dose-responsive ubiquitination of BRD4. A panel of CRBN-recruiting thalidomide-based degraders was unable to induce ubiquitination or degradation of target proteins. High-resolution protein cocrystal structures revealed an unexpected interaction between the thalidomide moiety and Trp81 on the first bromodomain of BRD4. The inability to form a ternary complex provides a potential rationale for the lack of degrader activity with these compounds, some of which have remarkable affinities close to those of (+)-JQ1, as low as 65 nM in a biochemical assay, vs 1.5 μM for their POI ligand, ISOX-DUAL. Such a “degrader collapse” may represent an under-reported mechanism by which some putative degrader molecules are inactive with respect to target protein degradation.

Original language	English
Pages (from-to)	9638-9660
Number of pages	23
Journal	Journal of Medicinal Chemistry
Volume	68
Issue number	9
Early online date	17 Apr 2025
DOIs	https://doi.org/10.1021/acs.jmedchem.5c00395
Publication status	Published - 8 May 2025

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© 2025 The Authors. Published by American Chemical Society.

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Edmonds, A., Balourdas, D.-I., Marsh, G. P., Felix, R., Brasher, B., Cooper, J., Graber-Feesl, C., Kollareddy, M., Malik, K., Stewart, H., Chevassut, T. J. T., Lineham, E., Morley, S., Fedorov, O., Bennett, J., Rajasekaran, M. B., Ojeda, S., Harrison, D. A., Ott, C. J., ... Spencer, J. (2025). Structure-Guided Design of ISOX-DUAL-Based Degraders Targeting BRD4 and CBP/EP300: A Case of Degrader Collapse. Journal of Medicinal Chemistry, 68(9), 9638-9660. https://doi.org/10.1021/acs.jmedchem.5c00395

@article{3004e234da6443b286d1a29b76cb9b54,

title = "Structure-Guided Design of ISOX-DUAL-Based Degraders Targeting BRD4 and CBP/EP300: A Case of Degrader Collapse",

abstract = "Degraders with dual activity against BRD4 and CBP/EP300 were designed. A structure-guided design approach was taken to assess and test potential exit vectors on the dual BRD4 and CBP/EP300 inhibitor, ISOX-DUAL. Candidate degrader panels revealed that VHL-recruiting moieties could mediate dose-responsive ubiquitination of BRD4. A panel of CRBN-recruiting thalidomide-based degraders was unable to induce ubiquitination or degradation of target proteins. High-resolution protein cocrystal structures revealed an unexpected interaction between the thalidomide moiety and Trp81 on the first bromodomain of BRD4. The inability to form a ternary complex provides a potential rationale for the lack of degrader activity with these compounds, some of which have remarkable affinities close to those of (+)-JQ1, as low as 65 nM in a biochemical assay, vs 1.5 μM for their POI ligand, ISOX-DUAL. Such a “degrader collapse” may represent an under-reported mechanism by which some putative degrader molecules are inactive with respect to target protein degradation.",

author = "Edmonds, \{Anthony K.\} and Dimitrios-Ilias Balourdas and Marsh, \{Graham P.\} and Robert Felix and Bradley Brasher and Jeff Cooper and Cari Graber-Feesl and Madhu Kollareddy and Karim Malik and Helen Stewart and Chevassut, \{Timothy J. T.\} and Ella Lineham and Simon Morley and Oleg Fedorov and James Bennett and Rajasekaran, \{Mohan B.\} and Samuel Ojeda and Harrison, \{Drew A.\} and Ott, \{Christopher J.\} and Joerger, \{Andreas C.\} and Maple, \{Hannah J.\} and John Spencer",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published by American Chemical Society.",

year = "2025",

month = may,

day = "8",

doi = "10.1021/acs.jmedchem.5c00395",

language = "English",

volume = "68",

pages = "9638--9660",

journal = "Journal of Medicinal Chemistry",

issn = "0022-2623",

publisher = "American Chemical Society",

number = "9",

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Edmonds, A, Balourdas, D-I, Marsh, GP, Felix, R, Brasher, B, Cooper, J, Graber-Feesl, C, Kollareddy, M , Malik, K, Stewart, H, Chevassut, TJT, Lineham, E, Morley, S, Fedorov, O, Bennett, J, Rajasekaran, MB, Ojeda, S, Harrison, DA, Ott, CJ, Joerger, AC, Maple, HJ & Spencer, J 2025, 'Structure-Guided Design of ISOX-DUAL-Based Degraders Targeting BRD4 and CBP/EP300: A Case of Degrader Collapse', Journal of Medicinal Chemistry, vol. 68, no. 9, pp. 9638-9660. https://doi.org/10.1021/acs.jmedchem.5c00395

TY - JOUR

T1 - Structure-Guided Design of ISOX-DUAL-Based Degraders Targeting BRD4 and CBP/EP300

T2 - A Case of Degrader Collapse

AU - Edmonds, Anthony K.

AU - Balourdas, Dimitrios-Ilias

AU - Marsh, Graham P.

AU - Felix, Robert

AU - Brasher, Bradley

AU - Cooper, Jeff

AU - Graber-Feesl, Cari

AU - Kollareddy, Madhu

AU - Malik, Karim

AU - Stewart, Helen

AU - Chevassut, Timothy J. T.

AU - Lineham, Ella

AU - Morley, Simon

AU - Fedorov, Oleg

AU - Bennett, James

AU - Rajasekaran, Mohan B.

AU - Ojeda, Samuel

AU - Harrison, Drew A.

AU - Ott, Christopher J.

AU - Joerger, Andreas C.

AU - Maple, Hannah J.

AU - Spencer, John

PY - 2025/5/8

Y1 - 2025/5/8

N2 - Degraders with dual activity against BRD4 and CBP/EP300 were designed. A structure-guided design approach was taken to assess and test potential exit vectors on the dual BRD4 and CBP/EP300 inhibitor, ISOX-DUAL. Candidate degrader panels revealed that VHL-recruiting moieties could mediate dose-responsive ubiquitination of BRD4. A panel of CRBN-recruiting thalidomide-based degraders was unable to induce ubiquitination or degradation of target proteins. High-resolution protein cocrystal structures revealed an unexpected interaction between the thalidomide moiety and Trp81 on the first bromodomain of BRD4. The inability to form a ternary complex provides a potential rationale for the lack of degrader activity with these compounds, some of which have remarkable affinities close to those of (+)-JQ1, as low as 65 nM in a biochemical assay, vs 1.5 μM for their POI ligand, ISOX-DUAL. Such a “degrader collapse” may represent an under-reported mechanism by which some putative degrader molecules are inactive with respect to target protein degradation.

AB - Degraders with dual activity against BRD4 and CBP/EP300 were designed. A structure-guided design approach was taken to assess and test potential exit vectors on the dual BRD4 and CBP/EP300 inhibitor, ISOX-DUAL. Candidate degrader panels revealed that VHL-recruiting moieties could mediate dose-responsive ubiquitination of BRD4. A panel of CRBN-recruiting thalidomide-based degraders was unable to induce ubiquitination or degradation of target proteins. High-resolution protein cocrystal structures revealed an unexpected interaction between the thalidomide moiety and Trp81 on the first bromodomain of BRD4. The inability to form a ternary complex provides a potential rationale for the lack of degrader activity with these compounds, some of which have remarkable affinities close to those of (+)-JQ1, as low as 65 nM in a biochemical assay, vs 1.5 μM for their POI ligand, ISOX-DUAL. Such a “degrader collapse” may represent an under-reported mechanism by which some putative degrader molecules are inactive with respect to target protein degradation.

U2 - 10.1021/acs.jmedchem.5c00395

DO - 10.1021/acs.jmedchem.5c00395

M3 - Article (Academic Journal)

C2 - 40244695

SN - 0022-2623

VL - 68

SP - 9638

EP - 9660

JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

IS - 9

ER -

Structure-Guided Design of ISOX-DUAL-Based Degraders Targeting BRD4 and CBP/EP300: A Case of Degrader Collapse

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