Role of the SLC22A17/lipocalin-2 receptor in renal endocytosis of proteins/metalloproteins: a focus on iron- and cadmium-binding proteins.

IF 3.7 2区 医学 Q1 PHYSIOLOGY American Journal of Physiology-renal Physiology Pub Date : 2023-11-01 Epub Date: 2023-08-17 DOI:10.1152/ajprenal.00020.2023
Frank Thévenod, Robin Herbrechter, Carolin Schlabs, Abhishek Pethe, Wing-Kee Lee, Natascha A Wolff, Eleni Roussa
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Abstract

The transmembrane protein SLC22A17 [or the neutrophil gelatinase-associated lipocalin/lipocalin-2 (LCN2)/24p3 receptor] is an atypical member of the SLC22 family of organic anion and cation transporters: it does not carry typical substrates of SLC22 transporters but mediates receptor-mediated endocytosis (RME) of LCN2. One important task of the kidney is the prevention of urinary loss of proteins filtered by the glomerulus by bulk reabsorption of multiple ligands via megalin:cubilin:amnionless-mediated endocytosis in the proximal tubule (PT). Accordingly, overflow, glomerular, or PT damage, as in Fanconi syndrome, results in proteinuria. Strikingly, up to 20% of filtered proteins escape the PT under physiological conditions and are reabsorbed by the distal nephron. The renal distal tubule and collecting duct express SLC22A17, which mediates RME of filtered proteins that evade the PT but with limited capacity to prevent proteinuria under pathological conditions. The kidney also prevents excretion of filtered essential and nonessential transition metals, such as iron or cadmium, respectively, that are largely bound to proteins with high affinity, e.g., LCN2, transferrin, or metallothionein, or low affinity, e.g., microglobulins or albumin. Hence, increased uptake of transition metals may cause nephrotoxicity. Here, we assess the literature on SLC22A17 structure, topology, tissue distribution, regulation, and assumed functions, emphasizing renal SLC22A17, which has relevance for physiology, pathology, and nephrotoxicity due to the accumulation of proteins complexed with transition metals, e.g., cadmium or iron. Other putative renal functions of SLC22A17, such as its contribution to osmotic stress adaptation, protection against urinary tract infection, or renal carcinogenesis, are discussed.

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SLC22A17/脂质运载蛋白-2受体在蛋白质/金属蛋白肾脏内吞作用中的作用:重点关注铁和镉结合蛋白。
跨膜蛋白SLC22A17[或中性粒细胞明胶酶相关的脂质运载蛋白/脂质运载蛋白-2(LCN2)/24p3受体]是有机阴离子和阳离子转运蛋白SLC22家族的非典型成员:它不携带SLC22转运蛋白的典型底物,但介导LCN2的受体介导的内吞作用(RME)。肾脏的一项重要任务是通过巨蛋白对多种配体的大量重吸收来防止肾小球过滤的蛋白质的尿液损失:立方蛋白:无羊膜介导的近端小管(PT)内吞作用。因此,溢流、肾小球或PT损伤,如范科尼综合征,会导致蛋白尿。引人注目的是,高达20%的过滤蛋白在生理条件下逃离PT,并被远端肾单位重新吸收。肾远端小管和收集管表达SLC22A17,其介导过滤蛋白的RME,该蛋白逃避PT,但在病理条件下预防蛋白尿的能力有限。肾脏还阻止过滤的必需和非必需过渡金属(如铁或镉)的排泄,这些过渡金属主要与高亲和力的蛋白质结合,如LCN2、转铁蛋白或金属硫蛋白,或低亲和力的蛋白质,如微球蛋白或白蛋白。因此,过渡金属摄取增加可能导致肾毒性。在这里,我们评估了关于SLC22A17结构、拓扑结构、组织分布、调节和假定功能的文献,强调了肾脏SLC22A17,由于与过渡金属(如镉或铁)复合的蛋白质的积累,它与生理学、病理学和肾毒性具有相关性。SLC22A17的其他假定肾功能,如对渗透应激适应的贡献、对尿路感染的保护或肾脏致癌作用,也进行了讨论。
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来源期刊
CiteScore
8.40
自引率
7.10%
发文量
154
审稿时长
2-4 weeks
期刊介绍: The American Journal of Physiology - Renal Physiology publishes original manuscripts on timely topics in both basic science and clinical research. Published articles address a broad range of subjects relating to the kidney and urinary tract, and may involve human or animal models, individual cell types, and isolated membrane systems. Also covered are the pathophysiological basis of renal disease processes, regulation of body fluids, and clinical research that provides mechanistic insights. Studies of renal function may be conducted using a wide range of approaches, such as biochemistry, immunology, genetics, mathematical modeling, molecular biology, as well as physiological and clinical methodologies.
期刊最新文献
Sex-specific epigenetic programming in renal fibrosis and inflammation. Why is chronic kidney disease progressive? Evolutionary adaptations and maladaptations. Intracellular signaling pathways of muscarinic acetylcholine receptor-mediated detrusor muscle contractions. Role of the SLC22A17/lipocalin-2 receptor in renal endocytosis of proteins/metalloproteins: a focus on iron- and cadmium-binding proteins. Renal tubular SGK1 is required to achieve blood pressure surge and circadian rhythm.
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