Proteome-wide identification of arginine methylation in colorectal cancer tissues from patients.

IF 2.1 3区生物学 Q3 BIOCHEMICAL RESEARCH METHODS

Proteome Science Pub Date : 2020-05-19 eCollection Date: 2020-01-01 DOI:10.1186/s12953-020-00162-8

Yongchul Lim, Ju Yeon Lee, Su Jin Ha, Suyeun Yu, Jung Kyong Shin, Hee Cheol Kim

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引用次数: 16

Abstract

Background: Protein arginine methylation reaction is catalyzed by protein arginine methyltransferase (PRMT) and the modification is implicated in various diseases including cancer. Currently, thousands of arginine methylation sites have been identified using high-resolution mass spectrometry-based proteomics technology. However, identification of arginine methylation using clinical samples at proteome level has not been reported yet. The objective of the present study was to identify, monomethyl-arginine (MMA) and asymmetric dimethyl-arginine (ADMA) sites in colorectal cancer (CRC) tissues at proteome level.

Methods: Pooled CRC tissue samples from 10 patients with stage II and III were digested by trypsin and these digests were further processed and lyophilized. Using monomethyl- or asymmetric dimethyl arginine (MMA or ADMA, respectively) motif kits, methylarginine-containing peptides were enriched and subsequently analyzed by high-resolution LC-MS/MS. DLD1 and HCT116 colon cancer cells were treated with type I PRMTs inhibitor (MS023) alone or combined with SN-38, and the effect of the drugs on CRC cell proliferation and apoptosis was measured by water-soluble tetrazolium salt (WST-1) assay and FACS analysis, respectively.

Results: In the present study, 455 MMA sites of 272 proteins and 314 ADMA sites of 155 proteins were identified from CRC tissues acquired from patients. In addition, 216 methylation sites and 75 substrates for PRMTs were newly identified. These results reveal the significant presence of MMA and ADMA sites on nucleic acid binding proteins and protein complexes involved in transcription. To investigate the effect of protein arginine methylation in CRC proliferation and apoptosis, MS023 was treated to two CRC cell lines. After 48 h treatment with various concentrations of MS023, CRC cell proliferation was significantly suppressed, with concomitant apoptosis induction. Furthermore, MS023 treatment significantly enhanced the inhibitory effect of SN-38 on CRC cell proliferation.

Conclusion: This work reports the first comprehensive analysis of arginine methylation with clinical sample and suggests that type I PRMTs are potential therapeutic targets for drug discovery in CRC.

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结直肠癌患者组织精氨酸甲基化的蛋白质组鉴定。

背景:蛋白精氨酸甲基化反应是由蛋白精氨酸甲基转移酶(PRMT)催化的，其修饰与包括癌症在内的多种疾病有关。目前，使用基于高分辨率质谱的蛋白质组学技术已经确定了数千个精氨酸甲基化位点。然而，在蛋白质组水平上使用临床样本鉴定精氨酸甲基化尚未见报道。本研究的目的是在蛋白质组水平上鉴定结直肠癌(CRC)组织中的单甲基精氨酸(MMA)和不对称二甲基精氨酸(ADMA)位点。方法:收集10例II期和III期结直肠癌患者的组织样本，用胰蛋白酶消化，并进一步处理和冻干。使用单甲基或不对称二甲基精氨酸(分别为MMA或ADMA)基序试剂盒，对含甲基精氨酸的肽进行富集，随后通过高分辨率LC-MS/MS进行分析。采用I型PRMTs抑制剂(MS023)单独或联合SN-38治疗DLD1和HCT116结肠癌细胞，分别采用水溶性四唑盐(WST-1)法和FACS法检测药物对结直肠癌细胞增殖和凋亡的影响。结果:本研究从患者CRC组织中鉴定出272个蛋白的455个MMA位点和155个蛋白的314个ADMA位点。此外，新鉴定了216个甲基化位点和75个PRMTs底物。这些结果揭示了MMA和ADMA位点在参与转录的核酸结合蛋白和蛋白复合物上的显著存在。为了研究蛋白精氨酸甲基化对结直肠癌增殖和凋亡的影响，我们对两种结直肠癌细胞系进行了MS023处理。不同浓度的MS023处理48h后，CRC细胞增殖明显受到抑制，并伴有凋亡诱导。此外，MS023处理显著增强了SN-38对结直肠癌细胞增殖的抑制作用。结论:本文首次报道了临床样本精氨酸甲基化的综合分析，表明I型PRMTs是CRC药物发现的潜在治疗靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Proteome Science 生物-生化研究方法

CiteScore

2.90

自引率

0.00%

发文量

审稿时长

4.5 months

期刊介绍： Proteome Science is an open access journal publishing research in the area of systems studies. Proteome Science considers manuscripts based on all aspects of functional and structural proteomics, genomics, metabolomics, systems analysis and metabiome analysis. It encourages the submissions of studies that use large-scale or systems analysis of biomolecules in a cellular, organismal and/or environmental context. Studies that describe novel biological or clinical insights as well as methods-focused studies that describe novel methods for the large-scale study of any and all biomolecules in cells and tissues, such as mass spectrometry, protein and nucleic acid microarrays, genomics, next-generation sequencing and computational algorithms and methods are all within the scope of Proteome Science, as are electron topography, structural methods, proteogenomics, chemical proteomics, stem cell proteomics, organelle proteomics, plant and microbial proteomics. In spite of its name, Proteome Science considers all aspects of large-scale and systems studies because ultimately any mechanism that results in genomic and metabolomic changes will affect or be affected by the proteome. To reflect this intrinsic relationship of biological systems, Proteome Science will consider all such articles.