不同剂量多柔比星诱导衰老小鼠模型的构建

不同剂量多柔比星诱导衰老小鼠模型的构建
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作者单位:云南白药集团股份有限公司
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基金项目:云南省重点研发计划项目（202203AC100008）；云南省基础研究专项（202401AT070155）

Construction of an Aging Mouse Model Induced by Different Doses of Doxorubicin

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Yunnan Baiyao Group Co,Ltd

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Funded by the Key Research and Development Project of Yunnan Province (grant NO. 202203AC100008) and Yunnan Fundamental Research Projects (grant NO. 202401AT070155).

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摘要:

【摘要】目的通过不同剂量不同频次腹腔注射多柔比星（DOX）建立快速衰老小鼠和心脏衰老小鼠模型，优化模型评价指标，为抗衰老药物评价提供疾病模型支撑。方法（1）快速衰老小鼠模型：将小鼠分为模型-1组（5 mg/kg，次/ 7 d）、模型-2组（8 mg/kg，次/10 d）模型-3组（8 mg/kg，次/7 d）、模型-4组（10 mg/kg，次/10 d）和模型-5组（10 mg/kg，次/7 d），腹腔注射3次，连续观察60 d，记录小鼠的生存率。；（2）心脏衰老小鼠模型：将小鼠分为对照组、模型-1组（2 mg/kg）、模型-2组（5 mg/kg）、模型-3组（8 mg/kg）和模型-4组（10 mg/kg），次/10 d，共注射2次，连续造模30 d，结束后使用小动物高频超声成像技术（UBM）评价射血分数（EF）、缩短分数（FS）和最大血流速度；检测血清中肌酸激酶同工酶（CK-MB）、乳酸脱氢酶（LDH）、白介素6（IL-6）和白介素1β（IL-1β）的水平；检测心肌组织超氧化物歧化酶（SOD）、丙二醛（MDA）、谷胱甘肽过氧化物酶（GSH-Px）、琥珀酸脱氢酶（SDH）和过氧化氢酶（CAT）含量；检测心肌组织病理、纤维连接蛋白（FN）、β-半乳糖苷酶染色（β-gal）和p16蛋白等心脏衰老相关指标。结果（1）快速衰老小鼠模型：实验期间各造模组小鼠的体重质量和存活率均呈显著下降趋势，且随着DOX造模剂量增加和造模间隔时间缩短，体质量重和存活率下降愈发明显。；（2）心脏衰老小鼠模型：与对照组比较，2、5、8和10 mg/kg DOX可以显著升高LDH含量（P < 0.01），降低GSH-Px活力（P<0.05或P<0.01）；5、8和10 mg/kg DOX可以显著降低小鼠体质量重（P<0.01），同时小鼠的EF，FS和最大血流速度均显著降低（P<0.05或P<0.01），血清中的IL-6含量显著增加（P<0.05或P<0.01），SOD含量显著降低（P<0.05或P<0.01），β-半乳糖苷酶和p16蛋白表达显著升高（P<0.05或P<0.01），心肌组织出现水样和空泡变性；而8和10 mg/kg DOX还可以显著升高CK-MB水平（P<0.01）和增加心脏纤维化程度（P <0.01）；此外，10 mg/kg DOX还可以增加IL-1β和MDA含量（P <0.01）。结论腹腔注射10 mg/kg DOX，每10 d注射一次，共注射3次可以成功建立快速衰老小鼠模型；而腹腔注射5或8 mg/kg DOX，每10 d注射一次，共注射2次可成功建立心脏衰老小鼠模型，引起心功能、心肌酶、炎症、氧化应激、衰老标志物、心脏病理及纤维化的改变，符合心脏衰老的生理病理特点。

Abstract:

【Abstract】 Objective To establish rapid aging and cardiac aging mouse models through intraperitoneal injection of doxorubicin (DOX) at different doses and frequencies, optimize model evaluation indices, and provide disease model support for anti-aging drug evaluation. Methods (1) Rapid aging mouse model: mice were divided into model -1 group (5 mg/kg, once every 7 days), model -2 group (8 mg/kg, once every 10 days), model- 3 group (8 mg/kg, once every 7 days), model- 4 group (10 mg/kg, once every 10 days), and model -5 group (10 mg/kg, once every 7 days). Three intraperitoneal injections were administered, and mice were continuously observed for 60 days to record survival rate. (2) Cardiac aging mouse model: mice were divided into control group, model -1 group (2 mg/kg), model -2 group (5 mg/kg), model -3 group (8 mg/kg), and model- 4 group (10 mg/kg). Injections were given twice, once every 10 days, modeling lasted 30 days. After completion, small animal high-frequency ultrasound imaging technology (UBM) was used to evaluate ejection fraction (EF), fractional shortening (FS), and peak blood flow velocity; serum levels of creatine kinase-MB (CK-MB), lactate dehydrogenase (LDH), interleukin 6 (IL-6), and interleukin 1β (IL-1β) were measured; myocardial tissue levels of superoxide dismutase (SOD), malondialdehyde (MDA), glutathione peroxidase (GSH-Px), succinate dehydrogenase (SDH), and catalase (CAT) were analyzed; myocardial tissue pathology, fibronectin (FN), β-galactosidase staining (β-gal), and p16 protein along with other cardiac aging-related indicators were assessed. Results: (1) Rapid aging mouse model: During the experiment, body weight and survival rate of mice in all modeling groups showed a significant downward trend. As DOX dose increased and modeling intervals shortened, decreases in body weight and survival rate became more pronounced. (2) Cardiac aging mouse model: Compared with the control group, DOX at 2, 5, 8, and 10 mg/kg significantly increased LDH levels (P < 0.01) and decreased GSH-Px activity (P < 0.05 or P < 0.01); DOX at 5, 8, and 10 mg/kg significantly decreased mouse body weight (P < 0.01), and EF, FS, as well as peak blood flow velocity were significantly reduced (P < 0.05 or P < 0.01). Serum IL-6 level increased significantly (P < 0.05 or P < 0.01), SOD content decreased significantly (P < 0.05 or P < 0.01), and β-galactosidase and p16 protein expression were significantly elevated (P < 0.05 or P < 0.01). Myocardial tissue showed hydropic and vacuolar degeneration; DOX at 8 and 10 mg/kg also significantly increased CK-MB levels (P < 0.01) and cardiac fibrosis (P < 0.01); additionally, DOX at 10 mg/kg increased IL-1β and MDA contents (P < 0.01). Conclusion: Intraperitoneal injection of DOX at 10 mg/kg once every 10 days for three injections successfully established a rapid aging mouse model; intraperitoneal injection of DOX at 5 or 8 mg/kg once every 10 days for two injections successfully established a cardiac aging mouse model, which induced changes in cardiac function, myocardial enzymes, inflammation, oxidative stress, aging markers, cardiac pathology, and fibrosis consistent with physiological and pathological characteristics of cardiac aging.

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收稿日期:2025-09-03
最后修改日期:2025-12-29
录用日期:2026-02-06
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