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本文引用的文献

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OPTN/SRTR 2017 Annual Data Report: Kidney.OPTN/SRTR 2017 年度数据报告:肾脏。
Am J Transplant. 2019 Feb;19 Suppl 2:19-123. doi: 10.1111/ajt.15274.
2
A 2018 Reference Guide to the Banff Classification of Renal Allograft Pathology.2018 年肾移植病理的班夫分类参考指南。
Transplantation. 2018 Nov;102(11):1795-1814. doi: 10.1097/TP.0000000000002366.
3
Causes of renal allograft failure in the UK: trends in UK Renal Registry and National Health Service Blood and Transplant data from 2000 to 2013.英国肾移植失败的原因:2000 年至 2013 年英国肾脏注册处和国民保健署血液与移植数据的趋势。
Nephrol Dial Transplant. 2019 Feb 1;34(2):355-364. doi: 10.1093/ndt/gfy168.
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Complications and adequacy of transplant kidney biopsies: A comparison of techniques.移植肾活检的并发症与充分性:技术比较
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The Banff 2017 Kidney Meeting Report: Revised diagnostic criteria for chronic active T cell-mediated rejection, antibody-mediated rejection, and prospects for integrative endpoints for next-generation clinical trials.Banff 2017 年会肾脏报告:慢性活动性 T 细胞介导排斥反应、抗体介导排斥反应的修订诊断标准,以及下一代临床试验综合终点的前景。
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Review: The transcripts associated with organ allograft rejection.综述:器官移植排斥反应相关的转录本。
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Kidney allograft failure in the steroid-free immunosuppression era: A matched case-control study.无类固醇免疫抑制时代的肾移植失败:一项配对病例对照研究。
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尿液细胞转录组学与人类肾移植急性排斥反应

Urinary cell transcriptomics and acute rejection in human kidney allografts.

机构信息

Department of Physiology and Biophysics.

Caryl and Israel Englander Institute for Precision Medicine, and.

出版信息

JCI Insight. 2020 Feb 27;5(4):131552. doi: 10.1172/jci.insight.131552.

DOI:10.1172/jci.insight.131552
PMID:32102984
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7101135/
Abstract

BACKGROUNDRNA sequencing (RNA-Seq) is a molecular tool to analyze global transcriptional changes, deduce pathogenic mechanisms, and discover biomarkers. We performed RNA-Seq to investigate gene expression and biological pathways in urinary cells and kidney allograft biopsies during an acute rejection episode and to determine whether urinary cell gene expression patterns are enriched for biopsy transcriptional profiles.METHODSWe performed RNA-Seq of 57 urine samples collected from 53 kidney allograft recipients (patients) with biopsies classified as acute T cell-mediated rejection (TCMR; n = 22), antibody-mediated rejection (AMR; n = 8), or normal/nonspecific changes (No Rejection; n = 27). We also performed RNA-Seq of 49 kidney allograft biopsies from 49 recipients with biopsies classified as TCMR (n = 12), AMR (n = 17), or No Rejection (n = 20). We analyzed RNA-Seq data for differential gene expression, biological pathways, and gene set enrichment across diagnoses and across biospecimens.RESULTSWe identified unique and shared gene signatures associated with biological pathways during an episode of TCMR or AMR compared with No Rejection. Gene Set Enrichment Analysis demonstrated enrichment for TCMR biopsy signature and AMR biopsy signature in TCMR urine and AMR urine, irrespective of whether the biopsy and urine were from the same or different patients. Cell type enrichment analysis revealed a diverse cellular landscape with an enrichment of immune cell types in urinary cells compared with biopsies.CONCLUSIONSRNA-Seq of urinary cells and biopsies, in addition to identifying enriched gene signatures and pathways associated with TCMR or AMR, revealed genomic changes between TCMR and AMR, as well as between allograft biopsies and urinary cells.

摘要

背景

RNA 测序(RNA-Seq)是一种分析全局转录变化、推导致病机制和发现生物标志物的分子工具。我们进行了 RNA-Seq,以研究急性排斥反应期间尿细胞和肾移植活检中的基因表达和生物学途径,并确定尿细胞基因表达模式是否富集了活检转录谱。

方法

我们对 53 名肾移植受者(患者)的 57 份尿液样本进行了 RNA-Seq,这些患者的活检分为急性 T 细胞介导的排斥反应(TCMR;n=22)、抗体介导的排斥反应(AMR;n=8)或正常/非特异性变化(无排斥反应;n=27)。我们还对 49 名肾移植受者的 49 份活检进行了 RNA-Seq,这些受者的活检分为 TCMR(n=12)、AMR(n=17)或无排斥反应(n=20)。我们分析了 RNA-Seq 数据,以确定不同诊断和不同生物样本之间的差异基因表达、生物学途径和基因集富集。

结果

我们确定了与 TCMR 或 AMR 发作期间的生物学途径相关的独特和共享基因特征。基因集富集分析表明,无论活检和尿液是否来自同一患者,TCMR 尿液和 AMR 尿液中均存在 TCMR 活检特征和 AMR 活检特征的富集。细胞类型富集分析显示,与活检相比,尿细胞中免疫细胞类型丰富,表明尿细胞中存在多样化的细胞景观。

结论

除了确定与 TCMR 或 AMR 相关的富集基因特征和途径外,尿细胞和活检的 RNA-Seq 还揭示了 TCMR 和 AMR 之间以及同种异体移植活检和尿细胞之间的基因组变化。