化疗对小鼠肌肉骨骼的长期影响

Function Pub Date : 2024-03-07 DOI:10.1093/function/zqae011
J. Huot, Patrick D Livingston, Fabrizio Pin, Connor R Thomas, Nicholas A Jamnick, Chandler S Callaway, A. Bonetto
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引用次数: 0

摘要

得益于癌症研究的最新进展,大多数接受癌症治疗的儿童都能活到成年。然而,人们对抗癌药物的长期后果研究不足,尤其是在儿童群体中。我们和其他研究人员已经证明,常规化疗药物会导致肌肉骨骼的改变,从而增加与治疗相关的毒性和长期发病率。然而,抗癌治疗后这些持久性肌肉骨骼缺陷的性质和范围,以及它们是否会对青少年的生长和生活质量产生潜在影响,仍有待阐明。在此,我们旨在研究化疗对幼年(儿科)小鼠肌肉骨骼的持久性影响。给四周大的雄性小鼠服用 5-FU、白消安、伊立替康(又名 Folfiri)或载体的复合制剂长达 5 周。牺牲时,收集、处理和储存骨骼肌、骨骼和其他组织,以备进一步分析。在另一组实验中,对化疗小鼠在停止治疗后进行了长达 4 周的监测。总体而言,化疗动物的生长速度明显减慢,导致瘦肉和脂肪量减少,骨骼肌明显变小。有趣的是,在停止治疗 4 周后,接受化疗的动物表现出持续的肌肉骨骼缺陷,包括肌肉神经支配缺陷和线粒体稳态异常。总之,我们的数据支持抗癌治疗可能会导致生长旺盛的小鼠出现长期的肌肉骨骼并发症,并支持进一步研究确定这些并发症的机制的必要性,从而找到预防或减轻化疗相关毒性的新疗法。
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Long-term musculoskeletal consequences of chemotherapy in pediatric mice
Thanks to recent progress in cancer research, most children treated for cancer survive into adulthood. Nevertheless, the long-term consequences of anticancer agents are understudied, especially in the pediatric population. We and others have shown that routinely administered chemotherapeutics drive musculoskeletal alterations, which contribute to increased treatment-related toxicity and long-term morbidity. Yet, the nature and scope of these enduring musculoskeletal defects following anticancer treatments and whether they can potentially impact growth and quality of life in young individuals remain to be elucidated. Here, we aimed at investigating the persistent musculoskeletal consequences of chemotherapy in young (pediatric) mice. Four-week-old male mice were administered a combination of 5-FU, leucovorin, irinotecan (a.k.a., Folfiri) or the vehicle for up to 5 weeks. At time of sacrifice, skeletal muscle, bones, and other tissues were collected, processed, and stored for further analyses. In another set of experiments, chemotherapy-treated mice were monitored for up to 4 weeks after cessation of treatment. Overall, the growth rate was significantly slower in the chemotherapy-treated animals, resulting in diminished lean and fat mass, as well as significantly smaller skeletal muscles. Interestingly, 4 weeks after cessation of the treatment, the animals exposed to chemotherapy showed persistent musculoskeletal defects, including muscle innervation deficits and abnormal mitochondrial homeostasis. Altogether, our data supports that anticancer treatments may lead to long-lasting musculoskeletal complications in actively growing pediatric mice and support the need for further studies to determine the mechanisms responsible for these complications, so that new therapies to prevent or diminish chemotherapy-related toxicities can be identified.
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