Fatty acid synthase (FASN) inhibition cooperates with BH3 mimetic drugs to overcome resistance to mitochondrial apoptosis in pancreatic cancer

IF 4.8 2区医学 Q1 Biochemistry, Genetics and Molecular Biology

Neoplasia Pub Date : 2025-02-24 DOI:10.1016/j.neo.2025.101143

Travis Vander Steen , Ingrid Espinoza , Cristina Duran , Guillem Casadevall , Eila Serrano-Hervás , Elisabet Cuyàs , Sara Verdura , George Kemble , Scott H. Kaufmann , Robert McWilliams , Sílvia Osuna , Daniel D. Billadeau , Javier A. Menendez , Ruth Lupu

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引用次数: 0

Abstract

Resistance to mitochondrial apoptosis is a major driver of chemoresistance in pancreatic ductal adenocarcinoma (PDAC). However, pharmacological manipulation of the mitochondrial apoptosis threshold in PDAC cells remains an unmet therapeutic goal. We hypothesized that fatty acid synthase inhibitors (FASNis), a family of targeted metabolic therapeutics recently entering the clinic, could lower the apoptotic threshold in chemoresistant PDAC cells and be synergistic with BH3 mimetics that neutralize anti-apoptotic proteins. Computational studies with TVB-3166 and TVB-3664, two analogues of the clinical-grade FASNi TVB-2640 (denifanstat), confirmed their uncompetitive behavior towards NADPH when bound to the FASN ketoacyl reductase domain. The extent of NADPH accumulation, a consequence of FASN inhibition, paralleled the sensitivity of PDAC cells to the apoptotic effects of TVB FASNis in conventional PDAC cell lines that naturally express varying levels of FASN. FASN inhibition dramatically increased the sensitivity of “FASN-high” expressing PDAC cells to the BCL2/BCL-X_L/BCL-W inhibitor ABT-263/navitoclax and the BCL2-selective inhibitor ABT-199/venetoclax, both in vitro and in in vivo xenografted tumors. The ability of TVB FASNis to shift the balance of pro- and anti-apoptotic proteins and thereby push PDAC cells closer to the apoptotic threshold was also observed in cell lines developed from patient-derived xenografts (PDXs) representative of the classical (pancreatic) transcriptomic subtype of PDAC. Experiments in PDAC PDXs in vivo confirmed the synergistic antitumor activity of TVB-3664 with navitoclax and venetoclax, independent of the nature of the replication stress signature of patient-derived PDAC cells. The discovery that targeted inhibition of FASN is a metabolic perturbation that sensitizes PDAC cells to BH3 mimetics warrants further investigation to overcome resistance to mitochondrial apoptosis in PDAC patients.

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脂肪酸合成酶（FASN）抑制与BH3模拟药物合作克服胰腺癌线粒体凋亡耐药

对线粒体凋亡的抵抗是胰腺导管腺癌（PDAC）化疗耐药的主要驱动因素。然而，PDAC细胞中线粒体凋亡阈值的药理学操作仍然是一个未实现的治疗目标。我们假设脂肪酸合成酶抑制剂（FASNis），一个最近进入临床的靶向代谢治疗家族，可以降低化疗耐药PDAC细胞的凋亡阈值，并与BH3模拟物协同作用，中和抗凋亡蛋白。对临床级FASNi TVB-2640 （denifanstat）的两种类似物TVB-3166和TVB-3664的计算研究证实，当它们与FASN酮酰还原酶结构域结合时，它们对NADPH具有非竞争性行为。在自然表达不同水平FASN的传统PDAC细胞系中，NADPH的积累程度是FASN抑制的结果，与TVB FASNis对PDAC细胞凋亡作用的敏感性相似。FASN抑制显著增加了“FASN-high”表达的PDAC细胞对BCL2/BCL-XL/BCL-W抑制剂ABT-263/navitoclax和BCL2选择性抑制剂ABT-199/venetoclax的敏感性，无论是在体外还是体内异种移植肿瘤中。TVB FASNis能够改变促凋亡和抗凋亡蛋白的平衡，从而使PDAC细胞更接近凋亡阈值，这也在PDAC经典（胰腺）转录组亚型的患者来源异种移植物（PDXs）培养的细胞系中观察到。PDAC PDXs体内实验证实了TVB-3664与navitoclax和venetoclax的协同抗肿瘤活性，与患者源性PDAC细胞复制应激特征的性质无关。FASN的靶向抑制是一种代谢扰动，使PDAC细胞对BH3模拟物敏感，这一发现值得进一步研究，以克服PDAC患者对线粒体凋亡的抗性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Neoplasia 医学-肿瘤学

CiteScore

9.20

自引率

2.10%

发文量

审稿时长

26 days

期刊介绍： Neoplasia publishes the results of novel investigations in all areas of oncology research. The title Neoplasia was chosen to convey the journal’s breadth, which encompasses the traditional disciplines of cancer research as well as emerging fields and interdisciplinary investigations. Neoplasia is interested in studies describing new molecular and genetic findings relating to the neoplastic phenotype and in laboratory and clinical studies demonstrating creative applications of advances in the basic sciences to risk assessment, prognostic indications, detection, diagnosis, and treatment. In addition to regular Research Reports, Neoplasia also publishes Reviews and Meeting Reports. Neoplasia is committed to ensuring a thorough, fair, and rapid review and publication schedule to further its mission of serving both the scientific and clinical communities by disseminating important data and ideas in cancer research.