Laboratory of Animal Biology, National Institute for Research and Development for Biology and Animal Nutrition, Calea Bucuresti No. 1, Balotesti, Ilfov, 077015, Romania.
Research Center for Functional Genomics, Biomedicine and Translational Medicine, "Iuliu Hatieganu" University of Medicine and Pharmacy, Marinescu 23 Street, No. 23, 400012, Cluj-Napoca, Romania.
Ecotoxicol Environ Saf. 2019 Nov 30;184:109637. doi: 10.1016/j.ecoenv.2019.109637. Epub 2019 Sep 6.
OTA is a toxic metabolite produced by fungus belonging to Aspergillus and Penicillium genera. Kidney is the main target of this toxin; OTA is considered as one of the etiological factors at the origin of the human Balkan endemic nephropathy. microRNA are short non-coding transcrips (18-22 nucleotides in length) regulating key cellular processes. Various miRNAs have been established to play important roles in development of renal carcinoma and urothelial cancer. The objective of this study is to analyse the miRNA profiling in the kidney of piglets experimentally intoxicated with feed contaminated with OTA. Fifteen piglets (five pigs/group) were randomly distributed into 3 groups, fed normal diet (Group 1: control), or diets contaminated with OTA in two concentrations: 50 μg OTA/kg feed (Group 2: 50 μg OTA/kg feed) or 200 μg OTA/kg feed (Group 3: 200 μg OTA/kg feed) for 28 days. At the end of the experiment blood samples were taken for serological analyses. Animals from control group and 200 μg OTA/kg feed were sacrificed and kidney samples were taken for histological and molecular analyses. As resulted from molecular profiling study there are 8 miRNA differentially expressed in OTA kidney vs control kidney, in which five miRNA were overexpressed in the kidney of OTA intoxicated animals: miR-497 (FC = 6.34), miR-133a-3p (FC = 5.75), miR-423-3p (FC = 5.48), miR-34a (FC = 1.68), miR-542-3p (1.65) while three miRNA were downregulated: miR-421-3p (FC = -3.96); miR-490 (FC = -3.87); miR-9840-3p (FC = -2.13). The altered miRNAs as effect of OTA are strongly connected to the engine of cancer, disturbing nodal points in different pathways, as TP53 signalling. This proof-of-concept study proves the actual utility of miRNAs as biomarkers of mycotoxin exposure, including OTA.
OTA 是一种真菌毒素,由曲霉属和青霉属真菌产生。肾脏是这种毒素的主要靶器官;OTA 被认为是人类巴尔干地方性肾病的病因之一。microRNA 是长度为 18-22 个核苷酸的短非编码转录物,调节关键的细胞过程。已经确定各种 miRNA 在肾细胞癌和尿路上皮癌的发展中发挥重要作用。本研究的目的是分析实验性用 OTA 污染饲料中毒的仔猪肾脏中的 miRNA 谱。15 头仔猪(每组 5 头)随机分为 3 组,分别饲喂正常饮食(第 1 组:对照组)或两种浓度的 OTA 污染饲料:50μg OTA/kg 饲料(第 2 组:50μg OTA/kg 饲料)或 200μg OTA/kg 饲料(第 3 组:200μg OTA/kg 饲料),为期 28 天。实验结束时采集血样进行血清学分析。对照组和 200μg OTA/kg 饲料组的动物被处死,采集肾脏样本进行组织学和分子分析。分子谱分析结果显示,OTA 肾脏与对照组肾脏有 8 个 miRNA 表达差异,其中 5 个 miRNA 在 OTA 中毒动物的肾脏中过度表达:miR-497(FC=6.34)、miR-133a-3p(FC=5.75)、miR-423-3p(FC=5.48)、miR-34a(FC=1.68)、miR-542-3p(1.65),而 3 个 miRNA 下调:miR-421-3p(FC=-3.96);miR-490(FC=-3.87);miR-9840-3p(FC=-2.13)。OTA 引起的改变 miRNA 与癌症的发动机强烈相关,扰乱了不同途径中的节点,如 TP53 信号通路。这项概念验证研究证明了 miRNA 作为霉菌毒素暴露生物标志物的实际效用,包括 OTA。
