Megalin-related mechanism of hemolysis-induced acute kidney injury and the therapeutic strategy

IF 5.6 2区 医学 Q1 ONCOLOGY The Journal of Pathology Pub Date : 2024-05-09 DOI:10.1002/path.6284
Sawako Goto, Michihiro Hosojima, Hideyuki Kabasawa, Kaho Arai, Kazuya Takemoto, Hiroyuki Aoki, Koichi Komochi, Ryota Kobayashi, Nanako Sugita, Taeko Endo, Ryohei Kaseda, Yutaka Yoshida, Ichiei Narita, Yoshiaki Hirayama, Akihiko Saito
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Abstract

Hemolysis-induced acute kidney injury (AKI) is attributed to heme-mediated proximal tubule epithelial cell (PTEC) injury and tubular cast formation due to intratubular protein condensation. Megalin is a multiligand endocytic receptor for proteins, peptides, and drugs in PTECs and mediates the uptake of free hemoglobin and the heme-scavenging protein α1-microglobulin. However, understanding of how megalin is involved in the development of hemolysis-induced AKI remains elusive. Here, we investigated the megalin-related pathogenesis of hemolysis-induced AKI and a therapeutic strategy using cilastatin, a megalin blocker. A phenylhydrazine-induced hemolysis model developed in kidney-specific mosaic megalin knockout (MegKO) mice confirmed megalin-dependent PTEC injury revealed by the co-expression of kidney injury molecule-1 (KIM-1). In the hemolysis model in kidney-specific conditional MegKO mice, the uptake of hemoglobin and α1-microglobulin as well as KIM-1 expression in PTECs was suppressed, but tubular cast formation was augmented, likely due to the nonselective inhibition of protein reabsorption in PTECs. Quartz crystal microbalance analysis revealed that cilastatin suppressed the binding of megalin with hemoglobin and α1-microglobulin. Cilastatin also inhibited the specific uptake of fluorescent hemoglobin by megalin-expressing rat yolk sac tumor-derived L2 cells. In a mouse model of hemolysis-induced AKI, repeated cilastatin administration suppressed PTEC injury by inhibiting the uptake of hemoglobin and α1-microglobulin and also prevented cast formation. Hemopexin, another heme-scavenging protein, was also found to be a novel ligand of megalin, and its binding to megalin and uptake by PTECs in the hemolysis model were suppressed by cilastatin. Mass spectrometry-based semiquantitative analysis of urinary proteins in cilastatin-treated C57BL/6J mice indicated that cilastatin suppressed the reabsorption of a limited number of megalin ligands in PTECs, including α1-microglobulin and hemopexin. Collectively, cilastatin-mediated selective megalin blockade is an effective therapeutic strategy to prevent both heme-mediated PTEC injury and cast formation in hemolysis-induced AKI. © 2024 The Pathological Society of Great Britain and Ireland.

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溶血诱发急性肾损伤的巨球蛋白相关机制及治疗策略
溶血诱发的急性肾损伤(AKI)是由于血红素介导的近端小管上皮细胞(PTEC)损伤和小管内蛋白质凝结导致的小管铸型形成。Megalin 是 PTEC 中蛋白质、肽和药物的多配体内细胞受体,可介导游离血红蛋白和血红蛋白清除蛋白 α1-微球蛋白的吸收。然而,人们对巨球蛋白如何参与溶血诱导的 AKI 的发生仍一无所知。在此,我们研究了溶血诱导性 AKI 与巨球蛋白相关的发病机制,以及使用巨球蛋白阻断剂西司他丁的治疗策略。在肾脏特异性镶嵌型galin基因敲除(MegKO)小鼠中建立的苯肼诱导溶血模型证实,肾损伤分子-1(KIM-1)的共表达揭示了galin依赖性PTEC损伤。在肾脏特异性条件性 MegKO 小鼠的溶血模型中,血红蛋白和α1-微球蛋白的摄取以及 KIM-1 在 PTEC 中的表达受到抑制,但肾小管铸型的形成却增加了,这可能是由于 PTEC 对蛋白质重吸收的非选择性抑制所致。石英晶体微天平分析显示,西司他丁抑制了megalin与血红蛋白和α1-微球蛋白的结合。西司他丁还能抑制表达巨球蛋白的大鼠卵黄囊肿瘤衍生 L2 细胞对荧光血红蛋白的特异性吸收。在溶血诱导的小鼠 AKI 模型中,反复服用西司他丁可抑制血红蛋白和α1-微球蛋白的吸收,从而抑制 PTEC 损伤,并防止铸型形成。研究还发现,另一种血红素清除蛋白 Hemopexin 也是巨球蛋白的一种新型配体,西司他丁可抑制其与巨球蛋白的结合以及溶血模型中 PTEC 对巨球蛋白的吸收。西司他丁处理的C57BL/6J小鼠尿蛋白的半定量质谱分析表明,西司他丁抑制了PTEC对少数巨球蛋白配体的重吸收,其中包括α1-微球蛋白和血卟啉。总之,西司他丁介导的选择性巨球蛋白阻断是一种有效的治疗策略,可防止溶血诱导的 AKI 中血红素介导的 PTEC 损伤和铸型形成。© 2024 大不列颠及爱尔兰病理学会。
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来源期刊
The Journal of Pathology
The Journal of Pathology 医学-病理学
CiteScore
14.10
自引率
1.40%
发文量
144
审稿时长
3-8 weeks
期刊介绍: The Journal of Pathology aims to serve as a translational bridge between basic biomedical science and clinical medicine with particular emphasis on, but not restricted to, tissue based studies. The main interests of the Journal lie in publishing studies that further our understanding the pathophysiological and pathogenetic mechanisms of human disease. The Journal of Pathology welcomes investigative studies on human tissues, in vitro and in vivo experimental studies, and investigations based on animal models with a clear relevance to human disease, including transgenic systems. As well as original research papers, the Journal seeks to provide rapid publication in a variety of other formats, including editorials, review articles, commentaries and perspectives and other features, both contributed and solicited.
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