Department of Medical Genetics, Cerrahpasa Medical School, Istanbul University, Fatih, Istanbul, Turkey.
Mol Biol Rep. 2013 Jul;40(7):4619-23. doi: 10.1007/s11033-013-2555-x. Epub 2013 May 7.
Tyrosinemia type-I results from lack of fumarylacetoacetate hydrolase (FAH), which is a liver enzyme and also shown to be present in lymphocytes, fibroblasts, and cultured amniotic fluid cells. In young infants, symptoms of untreated Tyrosinemia type-I are restricted to severe liver involvement. Later in the first year; however, it is known to be present with liver and renal tubular dysfunction associated with growth failure and rickets. MicroRNAs are small regulatory RNAs that function post-transcriptionally. They target commonly 3'-UTR of the mRNAs and inhibit protein expression by either blocking the synthesis or causing degradation of the mRNAs. MiRNA deregulation was observed in a variety of pathologic conditions but their roles in metabolic diseases were remained unsolved. We studied 6 patients with classical phenotypes of Tyrosinemia type-I. To identify possible miRNAs targeting FAH transcripts, microarray profiling of 961 miRNAs for lymphocytes and serum is performed. Computational algorithms are used for prediction of putative mRNA-miRNA interactions. A number of deregulated miRNAs, targeting the non-conserved sites on FAH transcripts were found. Besides, there are some miRNAs that are similarly altered both in lymphocytes and serum, possibly contributing to the disease phenotype. Since miRNAs may have an active role in the enzymatic pathway of tyrosine catabolism, characterizing miRNA profile in fibroblasts of tyrosinemia patients is also important because miRNAs would have distinctive role in disease pathogenesis and they are promising for future therapeutic studies.
I 型酪氨酸血症是由于延胡索酰乙酰乙酸水解酶 (FAH) 的缺乏所致,FAH 是一种肝脏酶,也存在于淋巴细胞、成纤维细胞和培养的羊水细胞中。在婴儿期,未经治疗的 I 型酪氨酸血症的症状仅限于严重的肝脏受累。然而,在第一年后期,已知存在与肝和肾小管功能障碍相关的生长衰竭和佝偻病。microRNA 是一种小的调节 RNA,具有转录后功能。它们通常靶向 mRNA 的 3'UTR,并通过阻止 mRNA 的合成或导致其降解来抑制蛋白质表达。在多种病理条件下观察到 miRNA 失调,但它们在代谢疾病中的作用仍未解决。我们研究了 6 名具有经典 I 型酪氨酸血症表型的患者。为了鉴定可能靶向 FAH 转录物的 miRNA,对淋巴细胞和血清中的 961 个 miRNA 进行了微阵列分析。使用计算算法预测可能的 mRNA-miRNA 相互作用。发现了一些针对 FAH 转录物非保守位点的下调 miRNA。此外,还有一些 miRNA 在淋巴细胞和血清中都发生了类似的改变,可能对疾病表型有贡献。由于 miRNA 可能在酪氨酸代谢的酶促途径中具有积极作用,因此表征酪氨酸血症患者成纤维细胞中的 miRNA 谱也很重要,因为 miRNA 在疾病发病机制中有独特的作用,并且是未来治疗研究的有前途的候选物。
