Ippolito Danielle L, AbdulHameed Mohamed Diwan M, Tawa Gregory J, Baer Christine E, Permenter Matthew G, McDyre Bonna C, Dennis William E, Boyle Molly H, Hobbs Cheryl A, Streicker Michael A, Snowden Bobbi S, Lewis John A, Wallqvist Anders, Stallings Jonathan D
*The Environmental Health Program, The United States Army Center for Environmental Health Research (USACEHR), Fort Detrick, Maryland 21702-5010;
Department of Defense Biotechnology High Performance Computing Software Applications Institute, Telemedicine and Advanced Technology Research Center, U.S. Army Medical Research and Materiel Command, Ft. Detrick, Maryland 21702;
Toxicol Sci. 2016 Jan;149(1):67-88. doi: 10.1093/toxsci/kfv214. Epub 2015 Sep 22.
Toxic industrial chemicals induce liver injury, which is difficult to diagnose without invasive procedures. Identifying indicators of end organ injury can complement exposure-based assays and improve predictive power. A multiplexed approach was used to experimentally evaluate a panel of 67 genes predicted to be associated with the fibrosis pathology by computationally mining DrugMatrix, a publicly available repository of gene microarray data. Five-day oral gavage studies in male Sprague Dawley rats dosed with varying concentrations of 3 fibrogenic compounds (allyl alcohol, carbon tetrachloride, and 4,4'-methylenedianiline) and 2 nonfibrogenic compounds (bromobenzene and dexamethasone) were conducted. Fibrosis was definitively diagnosed by histopathology. The 67-plex gene panel accurately diagnosed fibrosis in both microarray and multiplexed-gene expression assays. Necrosis and inflammatory infiltration were comorbid with fibrosis. ANOVA with contrasts identified that 51 of the 67 predicted genes were significantly associated with the fibrosis phenotype, with 24 of these specific to fibrosis alone. The protein product of the gene most strongly correlated with the fibrosis phenotype PCOLCE (Procollagen C-Endopeptidase Enhancer) was dose-dependently elevated in plasma from animals administered fibrogenic chemicals (P < .05). Semiquantitative global mass spectrometry analysis of the plasma identified an additional 5 protein products of the gene panel which increased after fibrogenic toxicant administration: fibronectin, ceruloplasmin, vitronectin, insulin-like growth factor binding protein, and α2-macroglobulin. These results support the data mining approach for identifying gene and/or protein panels for assessing liver injury and may suggest bridging biomarkers for molecular mediators linked to histopathology.
有毒工业化学品会导致肝损伤,若不采用侵入性检查则很难诊断。识别终末器官损伤的指标可以补充基于暴露的检测方法,并提高预测能力。我们采用了一种多重分析方法,通过对公开可用的基因微阵列数据库DrugMatrix进行计算挖掘,实验评估一组预计与纤维化病理相关的67个基因。对雄性斯普拉格-道利大鼠进行了为期五天的灌胃研究,分别给予不同浓度的3种致纤维化化合物(烯丙醇、四氯化碳和4,4'-亚甲基二苯胺)和2种非致纤维化化合物(溴苯和地塞米松)。通过组织病理学明确诊断纤维化。在微阵列和多重基因表达分析中,67基因面板均能准确诊断纤维化。坏死和炎症浸润与纤维化并存。方差分析及对比表明,67个预测基因中有51个与纤维化表型显著相关,其中24个仅特异性地与纤维化相关。与纤维化表型相关性最强的基因PCOLCE(前胶原C端肽酶增强剂)的蛋白产物在给予致纤维化化学物质的动物血浆中呈剂量依赖性升高(P < 0.05)。对血浆进行的半定量全局质谱分析确定了该基因面板的另外5种蛋白产物,在给予致纤维化毒物后增加:纤连蛋白、铜蓝蛋白、玻连蛋白、胰岛素样生长因子结合蛋白和α2-巨球蛋白。这些结果支持通过数据挖掘方法来识别用于评估肝损伤的基因和/或蛋白面板,并可能提示与组织病理学相关的分子介质的桥梁生物标志物。
