Ferroptosis contributes to cyclophosphamide-induced hemorrhagic cystitis

IF 4.7 2区医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Chemico-Biological Interactions Pub Date : 2023-10-01 DOI:10.1016/j.cbi.2023.110701

Zhimin Mao, Kun Zhong, Xiaojun Liu, Xuhui Zeng

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Abstract

Cyclophosphamide (CYP) is extensively used in tumor therapy, but its clinical application is limited by its toxic effects on the bladder. Since CYP-induced cystitis is believed to be mediated by acrolein (ACR), a product of lipid peroxidation that triggers ferroptosis, we hypothesized that ferroptosis might be an essential molecular mechanism underlying CYP-induced cystitis. The purpose of this study was to test this hypothesis. Intraperitoneal injection of CYP led to bladder hemorrhage and edema, along with increased oxidation, inflammation, and cell injury. Further analysis revealed these changes were associated with altered ferroptosis markers in the bladder, such as FPN1, ACSL4, SLC7A11, and GPX4, indicating the existence of ferroptosis. Administration of ferroptosis inhibitor dexrazoxane (DXZ) improved ferroptosis and prevented CYP-induced pathological changes in the bladder. Collectively, our study revealed that ferroptosis is an important mechanism underlying CYP-induced cystitis, and therapeutic approaches targeting ferroptosis could be developed to treat CYP-induced cystitis.

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铁下垂导致环磷酰胺诱导的出血性膀胱炎。

环磷酰胺（CYP）广泛应用于肿瘤治疗，但其对膀胱的毒性作用限制了其临床应用。由于CYP诱导的膀胱炎被认为是由丙烯醛（ACR）介导的，丙烯醛是引发脱铁性贫血的脂质过氧化产物，我们假设脱铁性膀胱炎可能是CYP诱导膀胱炎的重要分子机制。本研究的目的是检验这一假设。腹膜内注射CYP导致膀胱出血和水肿，同时增加氧化、炎症和细胞损伤。进一步的分析显示，这些变化与膀胱中脱铁性病变标志物的改变有关，如FPN1、ACSL4、SLC7A11和GPX4，表明脱铁性疾病的存在。给予脱铁性贫血抑制剂地塞米松（DXZ）可改善脱铁性下垂，并防止CYP诱导的膀胱病理变化。总之，我们的研究表明，脱铁性贫血是CYP诱导的膀胱炎的一个重要机制，可以开发针对脱铁性肺病的治疗方法来治疗CYP诱导性膀胱炎。

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来源期刊

Chemico-Biological Interactions 生物-毒理学

CiteScore

7.70

自引率

3.90%

发文量

410

审稿时长

36 days

期刊介绍： Chemico-Biological Interactions publishes research reports and review articles that examine the molecular, cellular, and/or biochemical basis of toxicologically relevant outcomes. Special emphasis is placed on toxicological mechanisms associated with interactions between chemicals and biological systems. Outcomes may include all traditional endpoints caused by synthetic or naturally occurring chemicals, both in vivo and in vitro. Endpoints of interest include, but are not limited to carcinogenesis, mutagenesis, respiratory toxicology, neurotoxicology, reproductive and developmental toxicology, and immunotoxicology.