确定弥漫大 B 细胞淋巴瘤中可规避或克服 Venetoclax 抗药性的靶向弱点

Cancers Pub Date : 2024-06-03 DOI:10.3390/cancers16112130
Clare M. Adams, Amanda McBride, Peter Michener, Irina Shkundina, R. Mitra, Hyun Hwan An, Pierluigi Porcu, Christine M. Eischen
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摘要

单药 Venetoclax/ABT-199(抗凋亡 BCL2 抑制剂)的临床试验显示,弥漫大 B 细胞淋巴瘤(DLBCL)的生存并不完全依赖于 BCL2。如果能深入了解增加 Venetoclax 敏感性的途径/蛋白或 Venetoclax 耐药 DLBCL 的独特弱点,就能提供新的潜在治疗途径。因此,我们生成了获得性耐药的 DLBCL 细胞,并将其与固有的耐药和敏感的 DLBCL 株系一起进行了评估。我们确定了耐药机制,包括BCL2家族成员的改变,这些改变在固有耐药和获得性Venetoclax耐药之间存在差异,并增加了对特定通路的依赖性。虽然BCL2家族成员抑制剂的联合治疗可以克服venetoclax耐药性,但RNA测序和药物/化合物筛选显示,耐venetoclax的DLBCL细胞,包括TP53突变的细胞,对氧化磷酸化有优先依赖性。抑制线粒体电子传递链复合物I可诱导耐药的DLBCL细胞死亡,但对Venetoclax不敏感。抑制IDH2(线粒体氧化还原调节因子)可协同克服venetoclax耐药性。此外,获得性和固有的 Venetoclax 耐药性 DLBCL 细胞对转录抑制剂、B 细胞受体信号转导抑制剂和 I 类组蛋白去乙酰化酶同样敏感。这些方法在DLBCL、滤泡和边缘区淋巴瘤患者样本中也很有效。我们的研究结果表明,有多种方法可以规避或克服DLBCL和其他B细胞淋巴瘤中不同的venetoclax耐药机制,并为未来的临床研究确定了关键的靶向途径。
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Identifying Targetable Vulnerabilities to Circumvent or Overcome Venetoclax Resistance in Diffuse Large B-Cell Lymphoma
Clinical trials with single-agent venetoclax/ABT-199 (anti-apoptotic BCL2 inhibitor) revealed that diffuse large B-cell lymphoma (DLBCL) is not solely dependent on BCL2 for survival. Gaining insight into pathways/proteins that increase venetoclax sensitivity or unique vulnerabilities in venetoclax-resistant DLBCL would provide new potential treatment avenues. Therefore, we generated acquired venetoclax-resistant DLBCL cells and evaluated these together with intrinsically venetoclax-resistant and -sensitive DLBCL lines. We identified resistance mechanisms, including alterations in BCL2 family members that differed between intrinsic and acquired venetoclax resistance and increased dependencies on specific pathways. Although combination treatments with BCL2 family member inhibitors may overcome venetoclax resistance, RNA-sequencing and drug/compound screens revealed that venetoclax-resistant DLBCL cells, including those with TP53 mutation, had a preferential dependency on oxidative phosphorylation. Mitochondrial electron transport chain complex I inhibition induced venetoclax-resistant, but not venetoclax-sensitive, DLBCL cell death. Inhibition of IDH2 (mitochondrial redox regulator) synergistically overcame venetoclax resistance. Additionally, both acquired and intrinsic venetoclax-resistant DLBCL cells were similarly sensitive to inhibitors of transcription, B-cell receptor signaling, and class I histone deacetylases. These approaches were also effective in DLBCL, follicular, and marginal zone lymphoma patient samples. Our results reveal there are multiple ways to circumvent or overcome the diverse venetoclax resistance mechanisms in DLBCL and other B-cell lymphomas and identify critical targetable pathways for future clinical investigations.
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