癌症中的线粒体。

IF 4.1 Q2 CELL BIOLOGY

Cell Stress Pub Date : 2020-05-11 DOI:10.15698/cst2020.06.221

Debora Grasso, Luca X Zampieri, Tânia Capelôa, Justine A Van de Velde, Pierre Sonveaux

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引用次数: 94

摘要

2000年对Warburg效应的重新发现和重新解释，将线粒体在癌细胞中发挥的关键功能掩盖了近十年。直到最近，科学界确实关注于将组成性糖酵解作为癌细胞的标志，而事实并非如此，在很大程度上忽视了线粒体对氧化和糖酵解癌细胞恶性的贡献，这是Warburgian或仅仅适应缺氧。在这篇综述中，我们强调线粒体不仅是一些癌细胞的动力源，而且在其他类型的癌细胞中也是生命、死亡、增殖、运动和干细胞的动态调节剂。与宿主细胞类似，线粒体能够适应肿瘤条件，并可能进化为“致癌线粒体”，能够将恶性能力转移到受体细胞。在对癌症代谢调节剂的更广泛探索中，已经确定了针对癌细胞线粒体的治疗方法，但该领域仍处于起步阶段。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Mitochondria in cancer.

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Mitochondria in cancer.

The rediscovery and reinterpretation of the Warburg effect in the year 2000 occulted for almost a decade the key functions exerted by mitochondria in cancer cells. Until recent times, the scientific community indeed focused on constitutive glycolysis as a hallmark of cancer cells, which it is not, largely ignoring the contribution of mitochondria to the malignancy of oxidative and glycolytic cancer cells, being Warburgian or merely adapted to hypoxia. In this review, we highlight that mitochondria are not only powerhouses in some cancer cells, but also dynamic regulators of life, death, proliferation, motion and stemness in other types of cancer cells. Similar to the cells that host them, mitochondria are capable to adapt to tumoral conditions, and probably to evolve to 'oncogenic mitochondria' capable of transferring malignant capacities to recipient cells. In the wider quest of metabolic modulators of cancer, treatments have already been identified targeting mitochondria in cancer cells, but the field is still in infancy.

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来源期刊

Cell Stress Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (miscellaneous)

CiteScore

13.50

自引率

0.00%

发文量

审稿时长

15 weeks

期刊介绍： Cell Stress is an open-access, peer-reviewed journal that is dedicated to publishing highly relevant research in the field of cellular pathology. The journal focuses on advancing our understanding of the molecular, mechanistic, phenotypic, and other critical aspects that underpin cellular dysfunction and disease. It specifically aims to foster cell biology research that is applicable to a range of significant human diseases, including neurodegenerative disorders, myopathies, mitochondriopathies, infectious diseases, cancer, and pathological aging. The scope of Cell Stress is broad, welcoming submissions that represent a spectrum of research from fundamental to translational and clinical studies. The journal is a valuable resource for scientists, educators, and policymakers worldwide, as well as for any individual with an interest in cellular pathology. It serves as a platform for the dissemination of research findings that are instrumental in the investigation, classification, diagnosis, and therapeutic management of major diseases. By being open-access, Cell Stress ensures that its content is freely available to a global audience, thereby promoting international scientific collaboration and accelerating the exchange of knowledge within the research community.