在一种新型卵巢癌恶病质小鼠模型中,肌肉无力和线粒体压力发生在严重转移之前。

IF 7 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM Molecular Metabolism Pub Date : 2024-06-24 DOI:10.1016/j.molmet.2024.101976
Luca J. Delfinis , Leslie M. Ogilvie , Shahrzad Khajehzadehshoushtar , Shivam Gandhi , Madison C. Garibotti , Arshdeep K. Thuhan , Kathy Matuszewska , Madison Pereira , Ronald G. Jones III , Arthur J. Cheng , Thomas J. Hawke , Nicholas P. Greene , Kevin A. Murach , Jeremy A. Simpson , Jim Petrik , Christopher G.R. Perry
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引用次数: 0

摘要

目的:患有晚期上皮性卵巢癌(EOC)的妇女中,有很大一部分会出现虚弱和恶病质。这种关系与发病率和死亡率的增加有关。方法:在此,我们评估了一种新的卵巢癌诱发恶病质模型,该模型的优点是通过在卵巢囊正位注射 EOC 细胞,在免疫功能正常的 C57BL/6J 成年小鼠中诱发癌症。我们对注射 EOC 细胞 45 天、75 天和 90 天后胫骨前肌(TA)和膈肌的转移、腹水、肌肉萎缩、肌无力、炎症标志物和线粒体应激的发展情况进行了描述:结果:原发性卵巢肿瘤的大小在每个时间点都逐渐增大,而在 90 天前出现了严重的转移、腹水以及体重、脂肪和肌肉重量的减少。两块肌肉中的某些炎症指标(TNFα)、雄激素指标(MURF1和Atrogin)或GDF15指标均无变化,而膈肌中的IL-6指标在45天和90天时有所增加。在 45 天时,TA 肌无力,随后(分别为 75 天和 90 天)出现萎缩和转移。膈肌在 45 天时表现出无力和萎缩。在这两块肌肉中,严重转移前的肌无力与线粒体生物能相关基因通路的大量重编程、线粒体丙酮酸氧化和肌酸依赖性 ADP/ATP 循环的功能性降低以及活性氧释放(过氧化氢)的增加相对应。值得注意的是,尽管存在萎缩和严重转移,90 天后 TA 的单位质量肌力仍得到了部分恢复。相比之下,膈肌则表现出逐渐衰弱。在这一晚期阶段,两块肌肉的线粒体丙酮酸氧化作用都超过了对照组小鼠,这表明肌酸依赖性腺苷酸循环指数恢复后,出现了明显的代谢超补偿:该小鼠模型展示了女性 EOC 患者同时出现的恶病质和转移。该模型在诱导免疫功能正常的成年小鼠卵巢囊内的肿瘤发生方面具有与生理学相关的优势。此外,该模型还揭示了TA和膈肌的肌无力会导致严重转移,而TA的肌无力也会导致TA萎缩。潜在的线粒体生物能应激与这种早期虚弱相对应。总之,除了针对恶病质的疗法外,这些发现还能引导新的研究方向,开发针对 EOC 期间萎缩前和严重转移前肌无力的疗法。
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Muscle weakness and mitochondrial stress occur before severe metastasis in a novel mouse model of ovarian cancer cachexia

Objectives

A high proportion of women with advanced epithelial ovarian cancer (EOC) experience weakness and cachexia. This relationship is associated with increased morbidity and mortality. EOC is the most lethal gynecological cancer, yet no preclinical cachexia model has demonstrated the combined hallmark features of metastasis, ascites development, muscle loss and weakness in adult immunocompetent mice.

Methods

Here, we evaluated a new model of ovarian cancer-induced cachexia with the advantages of inducing cancer in adult immunocompetent C57BL/6J mice through orthotopic injections of EOC cells in the ovarian bursa. We characterized the development of metastasis, ascites, muscle atrophy, muscle weakness, markers of inflammation, and mitochondrial stress in the tibialis anterior (TA) and diaphragm ∼45, ∼75 and ∼90 days after EOC injection.

Results

Primary ovarian tumour sizes were progressively larger at each time point while severe metastasis, ascites development, and reductions in body, fat and muscle weights occurred by 90 Days. There were no changes in certain inflammatory (TNFα), atrogene (MURF1 and Atrogin) or GDF15 markers within both muscles whereas IL-6 was increased at 45 and 90 Day groups in the diaphragm. TA weakness in 45 Day preceded atrophy and metastasis that were observed later (75 and 90 Day, respectively). The diaphragm demonstrated both weakness and atrophy in 45 Day. In both muscles, this pre-severe-metastatic muscle weakness corresponded with considerable reprogramming of gene pathways related to mitochondrial bioenergetics as well as reduced functional measures of mitochondrial pyruvate oxidation and creatine-dependent ADP/ATP cycling as well as increased reactive oxygen species emission (hydrogen peroxide). Remarkably, muscle force per unit mass at 90 days was partially restored in the TA despite the presence of atrophy and severe metastasis. In contrast, the diaphragm demonstrated progressive weakness. At this advanced stage, mitochondrial pyruvate oxidation in both muscles exceeded control mice suggesting an apparent metabolic super-compensation corresponding with restored indices of creatine-dependent adenylate cycling.

Conclusions

This mouse model demonstrates the concurrent development of cachexia and metastasis that occurs in women with EOC. The model provides physiologically relevant advantages of inducing tumour development within the ovarian bursa in immunocompetent adult mice. Moreover, the model reveals that muscle weakness in both TA and diaphragm precedes severe metastasis while weakness also precedes atrophy in the TA. An underlying mitochondrial bioenergetic stress corresponded with this early weakness. Collectively, these discoveries can direct new research towards the development of therapies that target pre-atrophy and pre-severe-metastatic weakness during EOC in addition to therapies targeting cachexia.

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来源期刊
Molecular Metabolism
Molecular Metabolism ENDOCRINOLOGY & METABOLISM-
CiteScore
14.50
自引率
2.50%
发文量
219
审稿时长
43 days
期刊介绍: Molecular Metabolism is a leading journal dedicated to sharing groundbreaking discoveries in the field of energy homeostasis and the underlying factors of metabolic disorders. These disorders include obesity, diabetes, cardiovascular disease, and cancer. Our journal focuses on publishing research driven by hypotheses and conducted to the highest standards, aiming to provide a mechanistic understanding of energy homeostasis-related behavior, physiology, and dysfunction. We promote interdisciplinary science, covering a broad range of approaches from molecules to humans throughout the lifespan. Our goal is to contribute to transformative research in metabolism, which has the potential to revolutionize the field. By enabling progress in the prognosis, prevention, and ultimately the cure of metabolic disorders and their long-term complications, our journal seeks to better the future of health and well-being.
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