基因微阵列与高通量蛋白质组学相结合用于发现横纹肌溶解诱导的急性肾损伤中的转甲状腺素蛋白

Gene Microarray Integrated with High-Throughput Proteomics for the Discovery of Transthyretin in Rhabdomyolysis-Induced Acute Kidney Injury.

作者信息

Li Ou, Geng Xiaodong, Ma Qian, Wang Weiwei, Liu Ran, Yin Zhong, Wang Siyang, Cai Guangyan, Chen Xiangmei, Hong Quan

机构信息

Department of Nephrology, Chinese PLA General Hospital, Chinese PLA Institute of Nephrology, State Key Laboratory of Kidney Diseases, National Clinical Research Center for Kidney Diseases, Beijing Key Laboratory of Kidney Diseases, Beijing, China.

Kidney Therapeutic Center of Traditional Chinese and Western Medicine, Beidaihe Sanatorium of Beijing Military Region, Qinhuangdao, China.

出版信息

Cell Physiol Biochem. 2017;43(4):1673-1688. doi: 10.1159/000484028. Epub 2017 Oct 18.

DOI:10.1159/000484028

PMID:29040977

Abstract

BACKGROUND/AIMS: Rhabdomyolysis, one of the leading causes of acute kidney injury (AKI), develops after trauma, drug toxicity, infections, burns, and physical exertion. The aim of this study was to investigate differences in gene and protein expression to elucidate the pathogenesis of rhabdomyolysis (RM)-induced AKI.

METHODS

In this study, we used glycerol induced renal injury as a model of RM-induced AKI. Affymetrix U133 plus 2.0 microarrays were used to perform gene microarray analysis. Isobaric tagging with related and absolute quantitation (iTRAQ) labeling mass spectrometry (MS) was applied to screen and identify differentially expressed proteins between RM-induced AKI and normal murine renal tissue. Verification experiments included immunohistochemistry (IHC), real-time PCR, Western blotting, and the measurement of ATP and ROS production. HK-2 cells were incubated in vitro with ferrous myoglobin and pcDNA-TTR, followed by assays to detect cell proliferation, ROS and apoptosis.

RESULTS

According to gene microarray and iTRAQ-MS analysis, we screened 17 common elements. After multiple analyses, we selected transthyretin (TTR) as our focus and investigated TTR in the kidney. Verification experiments with IHC confirmed differential expression levels of TTR proteins. Furthermore, Western blotting showed a stepwise decrease in TTR in AKI renal tissues. Cell-based experiments showed that overexpression of TTR could improve HK-2 cell viability and inhibit apoptosis. TTR reduced apoptosis by decreasing the accumulation of reactive oxygen species (ROS).

CONCLUSION

This study reports a possible mechanism for RM-induced AKI and suggests that reductions in TTR could increase the generation of ROS and induce apoptosis. TTR may be a potentially valuable target for RM-induced AKI.

摘要

背景/目的：横纹肌溶解是急性肾损伤（AKI）的主要原因之一，可在创伤、药物毒性、感染、烧伤和体力消耗后发生。本研究旨在调查基因和蛋白质表达的差异，以阐明横纹肌溶解（RM）诱导的AKI的发病机制。

方法

在本研究中，我们使用甘油诱导的肾损伤作为RM诱导的AKI模型。使用Affymetrix U133 plus 2.0基因芯片进行基因芯片分析。采用等压标签相对和绝对定量（iTRAQ）标记质谱（MS）技术筛选和鉴定RM诱导的AKI与正常小鼠肾组织之间差异表达的蛋白质。验证实验包括免疫组织化学（IHC）、实时PCR、蛋白质印迹以及ATP和ROS产生的测量。将HK-2细胞与亚铁肌红蛋白和pcDNA-TTR在体外孵育，然后进行检测细胞增殖、ROS和凋亡的实验。

结果

根据基因芯片和iTRAQ-MS分析，我们筛选出17个共同元件。经过多次分析，我们选择转甲状腺素蛋白（TTR）作为研究重点，并研究其在肾脏中的情况。IHC验证实验证实了TTR蛋白的差异表达水平。此外，蛋白质印迹显示AKI肾组织中TTR呈逐步下降。基于细胞的实验表明，TTR的过表达可以提高HK-2细胞活力并抑制凋亡。TTR通过减少活性氧（ROS）的积累来减少凋亡。

结论

本研究报道了RM诱导的AKI的一种可能机制，并表明TTR的减少可能会增加ROS的产生并诱导凋亡。TTR可能是RM诱导的AKI的一个潜在有价值的靶点。

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基因微阵列与高通量蛋白质组学相结合用于发现横纹肌溶解诱导的急性肾损伤中的转甲状腺素蛋白

Gene Microarray Integrated with High-Throughput Proteomics for the Discovery of Transthyretin in Rhabdomyolysis-Induced Acute Kidney Injury.

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