TY - JOUR
T1 - Efficacy and Toxicity Analysis of Selective BET Bromodomain Inhibitors in Models of Inflammatory Liver Disease
AU - Doskey, Luke C.
AU - Scholtz, Cole R.
AU - Vail, Nora R.
AU - Khanal, Shalil
AU - Lee, Amani
AU - Kandanur, Sai Giridhar Sarma
AU - Hoell, Zachariah J.
AU - Huehls, Amelia M.
AU - Issa, Mohamed R.
AU - Kostallari, Enis
AU - Cao, Sheng
AU - Reid, Joel M.
AU - Shah, Vijay H.
AU - Malhi, Harmeet
AU - Pomerantz, William C.K.
N1 - Publisher Copyright:
© 2025 American Chemical Society.
PY - 2025/4/24
Y1 - 2025/4/24
N2 - BET bromodomain inhibitors demonstrate significant promise as anti-inflammatory agents. However, clinical data demonstrated that nonselective BET bromodomain inhibitors led to significant dose-limiting toxicity in clinical settings. Here, we use three orally bioavailable inhibitors, 1-3, that are either BRD4-D1 selective or pan-D1-biased + BRD4-D2, for assessing their cellular and in vivo efficacy and safety profile compared to known BET inhibitors in two inflammatory disease models. Our results show that pan-D1-biased + BRD4-D2 inhibitor, 3, is as efficacious as pan-BET inhibitor, I-BET151, in reducing inflammation in both models, whereas pan-D2 inhibitors are less effective. BRD4-D1 selective inhibitors are also efficacious; however, inhibitors with improved cellular engagement will be necessary to better assess their effects. Finally, BRD4-D1 selective inhibitors are better tolerated in a preclinical thrombocytopenia model than 3, while gastrointestinal toxicity may be a BRD4-driven effect. These results highlight the importance of assessing specific BET bromodomain functions due to their diverse roles in disease models.
AB - BET bromodomain inhibitors demonstrate significant promise as anti-inflammatory agents. However, clinical data demonstrated that nonselective BET bromodomain inhibitors led to significant dose-limiting toxicity in clinical settings. Here, we use three orally bioavailable inhibitors, 1-3, that are either BRD4-D1 selective or pan-D1-biased + BRD4-D2, for assessing their cellular and in vivo efficacy and safety profile compared to known BET inhibitors in two inflammatory disease models. Our results show that pan-D1-biased + BRD4-D2 inhibitor, 3, is as efficacious as pan-BET inhibitor, I-BET151, in reducing inflammation in both models, whereas pan-D2 inhibitors are less effective. BRD4-D1 selective inhibitors are also efficacious; however, inhibitors with improved cellular engagement will be necessary to better assess their effects. Finally, BRD4-D1 selective inhibitors are better tolerated in a preclinical thrombocytopenia model than 3, while gastrointestinal toxicity may be a BRD4-driven effect. These results highlight the importance of assessing specific BET bromodomain functions due to their diverse roles in disease models.
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U2 - 10.1021/acs.jmedchem.4c02555
DO - 10.1021/acs.jmedchem.4c02555
M3 - Article
C2 - 40227166
AN - SCOPUS:105003472157
SN - 0022-2623
VL - 68
SP - 8091
EP - 8105
JO - Journal of medicinal chemistry
JF - Journal of medicinal chemistry
IS - 8
ER -