Comparative proteomic profiling of uric acid, ammonium acid urate, and calcium-based kidney stones.

IF 1.5 Q3 UROLOGY & NEPHROLOGY American journal of clinical and experimental urology Pub Date : 2023-01-01

Johnathan A Khusid, Alex Vasquez, Areeba S Sadiq, Jennifer A Stockert, Blair Gallante, Alan Yaghoubian, Roman Shimonov, Aryeh Stock, William Atallah, Natasha Kyprianou, Wei Yang, Mantu Gupta

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Abstract

Introduction: Kidney stone matrix proteins may help explain cellular mechanisms of stone genesis. However, most existing proteomic studies have focused on calcium oxalate stones. Here, we present a comparative proteomic analysis of different kidney stone types.

Methods: Proteins were extracted from the stones of patients undergoing percutaneous nephrolithotomy (PCNL). Approximately 20 μg of protein was digested into tryptic peptides using filter aided sample preparation, followed by liquid chromatography tandem-mass-spectrometry using an EASY-nLC 1200 and Orbitrap Fusion Lumos mass spectrometer. A standard false discovery rate cutoff of 1% was used for protein identification. Stone analysis was used to organize stone samples into similar groups. We selected the top 5% of proteins based on total ion intensities and used DAVID and Ingenuity Pathway Analysis to identify and compare significantly enriched gene ontologies and pathways between groups.

Results: Six specimens were included and organized into the following four groups: 1) mixed uric acid (UA) and calcium-based, 2) pure UA, 3) pure ammonium acid urate (AAU), and 4) pure calcium-based. We identified 2,426 unique proteins (1,310-1,699 per sample), with 11-16 significantly enriched KEGG pathways identified per group and compared via heatmap. Based on number of unique proteins identified, this is the deepest proteomic study of kidney stones to date and the first such study of an AAU stone.

Conclusions: The results indicate that mixed UA and calcium-based kidney stones are more similar to pure UA stones than pure calcium-based stones. AAU stones appear more similar to pure calcium-based stones than UA containing stones and may be related to parasitic infections. Further research with larger cohorts and histopathologic correlation is warranted.

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尿酸、尿酸铵和钙基肾结石的比较蛋白质组学分析。

导言:肾结石基质蛋白可能有助于解释结石发生的细胞机制。然而，大多数现有的蛋白质组学研究都集中在草酸钙结石上。在这里，我们提出了不同类型肾结石的比较蛋白质组学分析。方法:从经皮肾镜取石术(PCNL)患者结石中提取蛋白质。通过过滤辅助制样，将约20 μg的蛋白质消化成色氨酸肽，然后使用EASY-nLC 1200和Orbitrap Fusion Lumos质谱仪进行液相色谱串联质谱分析。错误发现率的标准临界值为1%，用于蛋白质鉴定。石料分析被用来将石料样品分成相似的组。我们根据总离子强度选择了前5%的蛋白质，并使用DAVID和Ingenuity Pathway Analysis来识别和比较组间显著富集的基因本体和途径。结果:6例标本分为4组:1)混合尿酸(UA)和钙基，2)纯尿酸(UA)， 3)纯尿酸铵(AAU)， 4)纯钙基。我们鉴定出2426种独特的蛋白质(每个样品1310 - 1699种)，每组鉴定出11-16种显著富集的KEGG通路，并通过热图进行比较。基于鉴定的独特蛋白质的数量，这是迄今为止对肾结石进行的最深入的蛋白质组学研究，也是对AAU结石的首次此类研究。结论:混合UA和钙基肾结石与纯UA结石的相似度大于纯钙基肾结石。与含UA的结石相比，AAU结石更类似于纯钙基结石，可能与寄生虫感染有关。进一步研究更大的队列和组织病理学相关性是有必要的。

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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American journal of clinical and experimental urology UROLOGY & NEPHROLOGY-

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8.30%

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