靶向 BCL-XL 的 BH3 模拟物对存在 RB1 缺失和复制应激的实体瘤具有疗效。
BH3 mimetics targeting BCL-XL have efficacy in solid tumors with RB1 loss and replication stress.
作者信息
Varkaris Andreas, Wang Keshan, Nouri Mannan, Kozlova Nina, Schmidt Daniel R, Stavridi Anastasia, Arai Seiji, Ambrosio Nicholas, Poluben Larysa, Jimenez-Vacas Juan M, Westaby Daniel, Carmichael Juliet, Xie Fang, Figueiredo Ines, Buroni Lorenzo, Neeb Antje, Gurel Bora, Chevalier Nicholas, Brown Lisha, Voznesensky Olga, Chen Shao-Yong, Russo Joshua W, Yuan Xin, Juric Dejan, Beltran Himisha, De Bono Johann S, Vander Heiden Matthew G, Einstein David J, Muranen Taru, Corey Eva, Sharp Adam, Balk Steven P
机构信息
Department of Medicine, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, MA, USA.
Massachusetts General Cancer Center and Department of Medicine, Harvard Medical School, Boston, MA, USA.
出版信息
Nat Commun. 2025 May 28;16(1):4931. doi: 10.1038/s41467-025-60238-x.
BH3 mimetic drugs that inhibit BCL-2, BCL-XL, or MCL-1 have limited activity in solid tumors. Through assessment of xenograft-derived 3D prostate cancer models and cell lines we find that tumors with RB1 loss are sensitive to BCL-XL inhibition. In parallel, drug screening demonstrates that disruption of nucleotide pools by agents including thymidylate synthase inhibitors sensitizes to BCL-XL inhibition, together indicating that replication stress increases dependence on BCL-XL. Mechanistically we establish that replication stress sensitizes to BCL-XL inhibition through TP53/CDKN1A-dependent suppression of BIRC5 expression. Therapy with a BCL-2/BCL-XL inhibitor (navitoclax) in combination with thymidylate synthase inhibitors (raltitrexed or capecitabine) causes marked and prolonged tumor regression in prostate and breast cancer xenograft models. These findings indicate that BCL-XL inhibitors may be effective as single agents in a subset of solid tumors with RB1 loss, and that pharmacological induction of replication stress may be a broadly applicable approach for sensitizing to BCL-XL inhibitors.
抑制BCL-2、BCL-XL或MCL-1的BH3模拟药物在实体瘤中的活性有限。通过对异种移植来源的3D前列腺癌模型和细胞系的评估,我们发现RB1缺失的肿瘤对BCL-XL抑制敏感。同时,药物筛选表明,包括胸苷酸合酶抑制剂在内的药物破坏核苷酸池会使细胞对BCL-XL抑制敏感,这共同表明复制应激会增加对BCL-XL的依赖性。从机制上来说,我们证实复制应激通过TP53/CDKN1A依赖性抑制BIRC5表达而使细胞对BCL-XL抑制敏感。在前列腺癌和乳腺癌异种移植模型中,使用BCL-2/BCL-XL抑制剂(维托克洛司)联合胸苷酸合酶抑制剂(雷替曲塞或卡培他滨)进行治疗可导致肿瘤显著且持久地消退。这些发现表明,BCL-XL抑制剂在一部分RB1缺失的实体瘤中可能作为单一药物有效,并且药理学诱导复制应激可能是一种广泛适用的使细胞对BCL-XL抑制剂敏感的方法。
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