Talayero Paloma, Alonso-Guirado Lola, Padilla Guillermo, Artaza Haydee, Dopazo Ana, Sánchez-Cabo Fátima, Rodríguez-Muñoz Sarbelio, Calvo-Pulido Jorge, Mancebo Esther, de Lacoba Mario García, Paz-Artal Estela
Department of Immunology, University Hospital 12 de Octubre, Madrid, Spain; I+12 Research Institute, University Hospital 12 de Octubre, Madrid, Spain.
Bioinformatics and Biostatistics Unit, Centro de Investigaciones Biológicas (CIB-CSIC), Madrid, Spain.
Exp Mol Pathol. 2017 Oct;103(2):163-171. doi: 10.1016/j.yexmp.2017.08.008. Epub 2017 Aug 24.
In intestinal allografts, endoscopy and histology detect the injury once changes in the bowel wall architecture have occurred. We aimed to identify a molecular signature that could predict early deterioration, within histologically indistinguishable biopsies with "minimal changes" (MC) pathology. Sixty biopsies from 12 adult recipients were longitudinally taken during 8years post-transplant. They were classified as either stable (STA) or non-stable (NSTA) according to the prospectively recorded number, frequency and severity of rejection events of the allograft. In a discovery set of MC samples analyzed by RNA-Seq, 816 genes were differentially expressed in STA vs NSTA biopsies. A group of 5 genes (ADH1C, SLC39A4, CYP4F2, OPTN and PDZK1) correctly classified all NSTA biopsies in the discovery set and all STA biopsies from an independent set. These results were validated by qPCR in a new group of MC biopsies. Based on a logistic regression model, a cutoff of 0.28 predicted the probability of being a NSTA biopsy with 85% sensitivity and 69% specificity. In conclusion, by analyzing MC samples early after transplantation, the expression of a 5-gene set may predict the evolution of the bowel allograft. This prognostic biomarker may be of help to personalize care of the intestinal transplant recipient.
在肠道同种异体移植中,一旦肠壁结构发生改变,内镜检查和组织学检查就能检测到损伤。我们旨在识别一种分子特征,该特征能够在具有“微小变化”(MC)病理学特征且组织学上难以区分的活检样本中预测早期恶化情况。在移植后的8年期间,对12名成年受者的60份活检样本进行了纵向采集。根据前瞻性记录的同种异体移植物排斥事件的数量、频率和严重程度,将它们分为稳定组(STA)或不稳定组(NSTA)。在通过RNA测序分析的MC样本发现集中,有816个基因在STA与NSTA活检样本中差异表达。一组5个基因(ADH1C、SLC39A4、CYP4F2、OPTN和PDZK1)正确地将发现集中的所有NSTA活检样本以及来自独立集的所有STA活检样本进行了分类。这些结果在一组新的MC活检样本中通过定量PCR得到了验证。基于逻辑回归模型,0.28的临界值预测为NSTA活检样本的概率时,灵敏度为85%,特异性为69%。总之,通过在移植后早期分析MC样本,一个由5个基因组成的基因集的表达可能预测肠道同种异体移植物的演变。这种预后生物标志物可能有助于对肠道移植受者进行个性化护理。
