Efficient identification of new small molecules targeting succinate dehydrogenase in non-small cell lung cancer.

IF 6 2区医学 Q1 ONCOLOGY

Cancer Cell International Pub Date : 2025-10-17 DOI:10.1186/s12935-025-04002-7

Luis Silva, Nicholas Skiados, Nikitha Murugavel, Karen Cover, Nastassja Luna, Manish K Gupta, Stephanie C Contreras, Terrence E O'Brien, Wen Cai Zhang

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引用次数: 0

Abstract

Background: Lung cancer treatment efficacy remains a challenge due to limited therapeutic targets. Succinate dehydrogenase (SDH) enzyme, a crucial enzyme linking the citric acid cycle and the electron transport chain, is implicated in cancer metabolism. While existing compounds target metabolic diseases in vitro, SDH-targeted therapy for lung cancer remains elusive.

Methods: We assessed SDH expression levels in non-small cell lung (NSCLC) tissues and cell lines. Leveraging AtomNet® technology for compound identification, coupled with mitochondria- and cell-based enzyme activity assays, we discovered new SDH inhibitors. Using 2D monolayer, 3D organoid culture, and assays for cell viability, migration, mitochondrial reactive oxygen species, oxygen consumption rate, succinate accumulation, and apoptosis, we elucidated their mechanism targeting lung malignancy.

Results: SDH subunits were found to be overexpressed in NSCLC tissues compared to tumor-adjacent normal tissues. Two new SDH inhibitors were identified from 96 predicted candidates. Cellular thermal shift assay confirmed direct binding of these small molecules to SDH subunits in lung cancer cells. Mechanistically, treatment increased cellular and mitochondrial reactive oxygen species, succinate accumulation, and induced apoptosis by damaging mitochondria and DNA, while modulating SDH protein expression. Functionally, these molecules reduced growth, migration, and 3D organoid formation in lung cancer cell lines in vitro, both short and long term.

Conclusions: Our SDH inhibitors halt tumor growth and migration by targeting key substrate binding sites, showing superior efficacy over existing small molecule antagonists. They also modulate SDH protein expression, suggesting a promising dual-targeting strategy for cancer therapy. This study sheds light on SDH function in cancer-related metabolic dysfunction and underscores the potential of SDH modulation as a therapeutic strategy for lung cancer and beyond.

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靶向非小细胞肺癌琥珀酸脱氢酶的新小分子的高效鉴定。

背景：由于治疗靶点有限，肺癌的治疗效果仍然是一个挑战。琥珀酸脱氢酶（SDH）是连接柠檬酸循环和电子传递链的关键酶，与癌症代谢有关。虽然现有的化合物在体外靶向代谢性疾病，但sdh靶向治疗肺癌仍然难以捉摸。方法：我们评估了SDH在非小细胞肺（NSCLC）组织和细胞系中的表达水平。利用AtomNet®技术进行化合物鉴定，结合线粒体和基于细胞的酶活性测定，我们发现了新的SDH抑制剂。通过二维单层、三维类器官培养，以及细胞活力、迁移、线粒体活性氧、耗氧量、琥珀酸盐积累和细胞凋亡的测定，我们阐明了它们靶向肺部恶性肿瘤的机制。结果：与肿瘤邻近正常组织相比，SDH亚单位在非小细胞肺癌组织中被发现过表达。从96个预测候选物中鉴定出两种新的SDH抑制剂。细胞热移测定证实了这些小分子与肺癌细胞中SDH亚基的直接结合。在机制上，处理增加了细胞和线粒体活性氧，琥珀酸积累，并通过破坏线粒体和DNA诱导凋亡，同时调节SDH蛋白表达。在功能上，这些分子在体外短期和长期地降低了肺癌细胞系的生长、迁移和三维类器官的形成。结论：我们的SDH抑制剂通过靶向关键底物结合位点阻止肿瘤的生长和迁移，比现有的小分子拮抗剂具有更好的疗效。它们还能调节SDH蛋白的表达，这为癌症治疗提供了一种有希望的双靶向策略。这项研究揭示了SDH在癌症相关代谢功能障碍中的功能，并强调了SDH调节作为肺癌及其他疾病治疗策略的潜力。

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

Cancer Cell International ONCOLOGY-

CiteScore

10.90

自引率

1.70%

发文量

360

审稿时长

1 months

期刊介绍： Cancer Cell International publishes articles on all aspects of cancer cell biology, originating largely from, but not limited to, work using cell culture techniques. The journal focuses on novel cancer studies reporting data from biological experiments performed on cells grown in vitro, in two- or three-dimensional systems, and/or in vivo (animal experiments). These types of experiments have provided crucial data in many fields, from cell proliferation and transformation, to epithelial-mesenchymal interaction, to apoptosis, and host immune response to tumors. Cancer Cell International also considers articles that focus on novel technologies or novel pathways in molecular analysis and on epidemiological studies that may affect patient care, as well as articles reporting translational cancer research studies where in vitro discoveries are bridged to the clinic. As such, the journal is interested in laboratory and animal studies reporting on novel biomarkers of tumor progression and response to therapy and on their applicability to human cancers.