Refining the adriamycin-induced focal segmental glomerulosclerosis mouse model to improve reproducibility and animal welfare

Q1 Health Professions

Animal models and experimental medicine Pub Date : 2025-02-07 DOI:10.1002/ame2.12564

Haochen Jiang, Salma Althobaiti, Braeden Pinkerton, Xin Fu, Zhenshan Jia, Kirk W. Foster, Geoffrey M. Thiele, Troy J. Plumb, Dong Wang

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Abstract

Background

Reliable animal models are crucial to drug development for focal segmental glomerulosclerosis (FSGS), a rare kidney disease. Variability in success rates in literature and significant ethical concerns with animal welfare necessitate further optimization of adriamycin (ADR)–induced FSGS model developed on BALB/c mice.

Methods

High-performance liquid chromatography (HPLC) was used to assess ADR stability in water and upon light exposure. To identify the optimal ADR level, single intravenous ADR injections with dosing levels from 10 to 17 mg/kg body weight were administered to BALB/c mice to induce FSGS-like pathology. Body weight and proteinuria of FSGS mice were monitored and analyzed for FSGS model–associated morbidity. Animals were euthanized for hematological and kidney histological assessments 8 weeks post induction. To identify the suitable experiment time frame of the ADR-induced FSGS mouse model, a longitudinal study was performed, with an 11-week continuous monitoring of the symptoms.

Results

ADR was found to be unstable in aqueous media and light sensitive. A dosing level of 10.5 mg/kg of ADR was optimal for consistent FSGS mouse model induction on BALB/c strain, characterized by minimal mortality and sustained FSGS-like symptoms. Findings from the longitudinal study suggest that 6 weeks post ADR induction may represent the peak of FSGS pathology severity in this mouse model. This time frame may be used for FSGS drug development projects.

Conclusion

Based on the outcome from this study, we identified the optimal ADR dosing level and model testing duration. A standard operating procedure (SOP) for the ADR-induced FSGS mouse model was established to facilitate FSGS basic research and drug development.

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完善阿霉素诱导局灶节段性肾小球硬化小鼠模型以提高可重复性和动物福利。

背景：可靠的动物模型对局灶节段性肾小球硬化（FSGS）的药物开发至关重要，FSGS是一种罕见的肾脏疾病。文献中成功率的差异和动物福利的重大伦理问题需要进一步优化阿霉素（ADR）诱导的BALB/c小鼠FSGS模型。方法：采用高效液相色谱法评价ADR在水中和光照下的稳定性。为了确定最佳ADR水平，我们对BALB/c小鼠单次静脉注射剂量为10 ~ 17 mg/kg体重的ADR，诱导fsgs样病理。监测FSGS小鼠的体重和蛋白尿，并分析FSGS模型相关的发病率。诱导后8周处死动物进行血液学和肾脏组织学评估。为了确定adr诱导FSGS小鼠模型的合适实验时间，我们进行了纵向研究，连续监测症状11周。结果：ADR在水介质和光敏介质中不稳定。10.5 mg/kg的不良反应剂量水平对于BALB/c菌株诱导一致的FSGS小鼠模型是最佳的，其特点是死亡率最低，持续的FSGS样症状。纵向研究结果表明，ADR诱导后6周可能是该小鼠模型中FSGS病理严重程度的峰值。此时间框架可用于FSGS药物开发项目。结论：根据本研究的结果，我们确定了最佳的不良反应剂量水平和模型试验时间。建立adr致FSGS小鼠模型标准操作流程，为FSGS基础研究和药物开发提供依据。

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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