GFM2 和 NSA2 的共同调控和同源关系将线粒体和细胞质中的核糖体功能与慢性肾病联系起来。

IF 6 2区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Medicine Pub Date : 2024-10-13 DOI:10.1186/s10020-024-00930-8
Minjie Zhang, Christer Hogstrand, Paola Pontrelli, Afshan N Malik
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引用次数: 0

摘要

背景:我们以前曾报道过糖尿病肾病中细胞核糖体生物生成因子 Nop-7-associated 2(NSA2)的异常表达,后者还涉及线粒体功能障碍,但 NSA2、线粒体和肾病之间的联系尚不清楚。方法:培养人类肾小管细胞(HK-2)(+/-锌,或 5mM/20mM 葡萄糖),使用实时 qPCR 对 mRNA 水平进行量化。转录组学数据取自中川慢性肾脏病(CKD)数据集(GSE66494)和肾脏精准医学项目(KPMP)( https://atlas.kpmp.org/ )。蛋白质水平通过免疫荧光和 Western 印迹法测定。使用安捷伦海马 XF 分析仪测量细胞呼吸。数据分析采用单因素方差分析、学生 t 检验和皮尔逊相关分析:结果:位于人类染色体 5q13 上的 NSA2 基因与 GFM2 相邻。在多个物种中,这两个基因在相反的链和方向上是同源的。它们共同的 381 bp 5' 区域包含多个转录因子结合位点(TFBS),其中包括锌反应转录因子 MTF1。NSA2 和 GFM2 mRNA 在体外对锌呈剂量依赖性增加,并在肾活检的近端肾小管细胞中高表达。慢性肾功能衰竭患者的肾脏NSA2/GFM2表达较高。在 HK-2 细胞中,高血糖会导致这两种基因的表达增加。细胞总蛋白含量保持不变,但 GFM2 的上调导致线粒体氧化磷酸化(OXPHOS)亚基水平升高。此外,通过瞬时转染或高血糖增加 GFM2 的表达与细胞呼吸减少有关:结论:NSA2 和 GFM2 高度保守的同源性、共享的 5' 区域以及在体外和 CKD 中的共同表达表明它们是共同调控的。GFM2 的增加会影响线粒体功能,某些线粒体呼吸蛋白的增加与细胞呼吸的减少之间存在脱节。这些数据将两个高度保守的基因(NSA2 和 GFM2)的调控与肾病联系起来,这两个基因与细胞质和线粒体这两个不同细胞区室中的核糖体相连,并表明它们的失调可能与线粒体功能障碍有关。
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Co-regulation and synteny of GFM2 and NSA2 links ribosomal function in mitochondria and the cytosol with chronic kidney disease.

Background: We previously reported aberrant expression of the cytosolic ribosomal biogenesis factor Nop-7-associated 2 (NSA2) in diabetic nephropathy, the latter also known to involve mitochondrial dysfunction, however the connections between NSA2, mitochondria and renal disease were unclear. In the current paper, we show that NSA2 expression is co-regulated with the GTP-dependent ribosome recycling factor mitochondrial 2 (GFM2) and provide a molecular link between cytosolic and mitochondrial ribosomal biogenesis with mitochondrial dysfunction in chronic kidney disease (CKD).

Methods: Human renal tubular cells (HK-2) were cultured (+/- zinc, or 5mM/20mM glucose). mRNA levels were quantified using real-time qPCR. Transcriptomics data were retrieved and analysed from Nakagawa chronic kidney disease (CKD) Dataset (GSE66494) and Kidney Precision Medicine Project (KPMP) ( https://atlas.kpmp.org/ ). Protein levels were determined by immunofluorescence and Western blotting. Cellular respiration was measured using Agilent Seahorse XF Analyzer. Data were analysed using one-way ANOVA, Students' t-test and Pearson correlation.

Results: The NSA2 gene, on human chromosome 5q13 was next to GFM2. The two genes were syntenic on opposite strands and orientation in multiple species. Their common 381 bp 5' region contained multiple transcription factor binding sites (TFBS) including the zinc-responsive transcription factor MTF1. NSA2 and GFM2 mRNAs showed a dose-dependent increase to zinc in-vitro and were highly expressed in proximal tubular cells in renal biopsies. CKD patients showed higher renal NSA2/GFM2 expression. In HK-2 cells, hyperglycaemia led to increased expression of both genes. The total cellular protein content remained unchanged, but GFM2 upregulation resulted in increased levels of several mitochondrial oxidative phosphorylation (OXPHOS) subunits. Furthermore, increased GFM2 expression, via transient transfection or hyperglycemia, correlated with decrease cellular respiration.

Conclusion: The highly conserved synteny of NSA2 and GFM2, their shared 5' region, and co-expression in-vitro and in CKD, shows they are co-regulated. Increased GFM2 affects mitochondrial function with a disconnect between an increase in certain mitochondrial respiratory proteins but a decrease in cellular respiration. These data link the regulation of 2 highly conserved genes, NSA2 and GFM2, connected to ribosomes in two different cellular compartments, cytosol and mitochondria, to kidney disease and shows that their dysregulation may be involved in mitochondrial dysfunction.

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来源期刊
Molecular Medicine
Molecular Medicine 医学-生化与分子生物学
CiteScore
8.60
自引率
0.00%
发文量
137
审稿时长
1 months
期刊介绍: Molecular Medicine is an open access journal that focuses on publishing recent findings related to disease pathogenesis at the molecular or physiological level. These insights can potentially contribute to the development of specific tools for disease diagnosis, treatment, or prevention. The journal considers manuscripts that present material pertinent to the genetic, molecular, or cellular underpinnings of critical physiological or disease processes. Submissions to Molecular Medicine are expected to elucidate the broader implications of the research findings for human disease and medicine in a manner that is accessible to a wide audience.
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