Investigating FSGS-like injury in zebrafish larvae by nifurpirinol: efficacy and molecular insight.

Marianne Klawitter, Francescapaola Mattias, Felix Kliewe, Elke Hammer, Uwe Völker, Stefan Simm, Florian Siegerist, Sophie Daniel, Maximilian Schindler, Nicole Endlich
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Abstract

Identifying effective drugs for focal segmental glomerulosclerosis (FSGS) treatment holds significant importance. Our high-content drug screening on zebrafish larvae relies on nitroreductase/metronidazole (NTR/MTZ)-induced podocyte ablation to generate FSGS-like injury. A crucial factor for successful drug screenings is minimizing variability in injury induction. For this, we introduce nifurpirinol (NFP) as a more reliable prodrug for targeted podocyte depletion. NFP showed a 2.3-fold increase in efficiency at concentrations 1,600-fold lower compared with MTZ-mediated injury induction. Integration into the screening workflow validated its suitability for the high-content drug screening. The presence of crucial FSGS hallmarks, such as podocyte foot process effacement, proteinuria, and activation of parietal epithelial cells, was observed. After the isolation of the glomeruli from the larvae, we identified essential pathways by proteomic analysis. This study shows that NFP serves as a highly effective prodrug to induce the FSGS-like disease in zebrafish larvae and is well-suited for a high-content drug screening to identify new candidates for the treatment of FSGS.NEW & NOTEWORTHY This research investigated the use of nifurpirinol in nanomolar amounts as a prodrug to reliably induce focal segmental glomerulosclerosis (FSGS)-like damage in transgenic zebrafish larvae. Through proteomic analysis of isolated zebrafish glomeruli, we were further able to identify proteins that are significantly regulated after the manifestation of FSGS. These results are expected to expand our knowledge of the pathomechanism of FSGS.

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用 Nifurpirinol 研究斑马鱼幼体 FSGS 类损伤:疗效和分子洞察力
确定治疗局灶节段性肾小球硬化症(FSGS)的有效药物具有重要意义。我们在斑马鱼幼体上进行的高含量药物筛选依赖于硝基还原酶/甲硝唑(NTR/MTZ)诱导的荚膜细胞消融来产生类似 FSGS 的损伤。成功筛选药物的一个关键因素是尽量减少损伤诱导的变异性。为此,我们引入了 Nifurpirinol (NFP) 作为更可靠的靶向荚膜细胞耗竭原药。与 MTZ 介导的损伤诱导相比,NFP 在浓度低 1600 倍的情况下效率提高了 2.3 倍。将其整合到筛选工作流程中验证了其适用于高含量药物筛选。实验发现了 FSGS 的关键特征,如荚膜足突脱落、蛋白尿和顶叶上皮细胞活化。从幼虫体内分离出肾小球后,我们通过蛋白质组分析确定了重要的通路。这项研究表明,NFP 是诱导斑马鱼幼体发生 FSGS 类似疾病的高效原药,非常适合用于高含量药物筛选,以确定治疗 FSGS 的新候选药物。
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