Institute of Biomedical Sciences, Academia Sinica, Taipei, Taiwan.
PLoS One. 2012;7(4):e34116. doi: 10.1371/journal.pone.0034116. Epub 2012 Apr 6.
Pancreatic acinar cells AR42J-B13 can transdifferentiate into hepatocyte-like cells permissive for efficient hepatitis B virus (HBV) replication. Here, we profiled miRNAs differentially expressed in AR42J-B13 cells before and after transdifferentiation to hepatocytes, using chip-based microarray. Significant increase of miRNA expression, including miR-21, miR-22, and miR-122a, was confirmed by stem-loop real-time PCR and Northern blot analyses. In contrast, miR-93, miR-130b, and a number of other miRNAs, were significantly reduced after transdifferentiation. To investigate the potential significance of miR-22 in hepatocytes, we generated cell lines stably expressing miR-22. By 2D-DIGE, LC-MS/MS, and Western blot analyses, we identified several potential target genes of miR-22, including parathymosin. In transdifferentiated hepatocytes, miR-22 can inhibit both mRNA and protein expression of parathymosin, probably through a direct and an indirect mechanism. We tested two computer predicted miR-22 target sites at the 3' UTR of parathymosin, by the 3' UTR reporter gene assay. Treatment with anti-miR-22 resulted in significant elevation of the reporter activity. In addition, we observed an in vivo inverse correlation between miR-22 and parathymosin mRNA in their tissue distribution in a rat model. The phenomenon that miR-22 can reduce parathymosin protein was also observed in human hepatoma cell lines Huh7 and HepG2. So far, we detected no major effect on several transdifferentiation markers when AR42J-B13 cells were transfected with miR-22, or anti-miR-22, or a parathymosin expression vector, with or without dexamethasone treatment. Therefore, miR-22 appears to be neither necessary nor sufficient for transdifferentiation. We discussed the possibility that altered expression of some other microRNAs could induce cell cycle arrest leading to transdifferentiation.
胰腺腺泡细胞 AR42J-B13 可转分化为肝细胞样细胞,有利于乙型肝炎病毒(HBV)的有效复制。在此,我们使用基于芯片的微阵列分析了 AR42J-B13 细胞在转分化为肝细胞前后差异表达的 miRNA。通过茎环实时 PCR 和 Northern blot 分析证实,miRNA 表达显著增加,包括 miR-21、miR-22 和 miR-122a。相比之下,miR-93、miR-130b 和许多其他 miRNA 在转分化后表达显著降低。为了研究 miR-22 在肝细胞中的潜在意义,我们生成了稳定表达 miR-22 的细胞系。通过 2D-DIGE、LC-MS/MS 和 Western blot 分析,我们鉴定了 miR-22 的几个潜在靶基因,包括甲状旁腺素。在转分化的肝细胞中,miR-22 可通过直接和间接机制抑制甲状旁腺素的 mRNA 和蛋白表达。我们通过 3'UTR 报告基因测定,测试了两个计算机预测的甲状旁腺素 3'UTR 上的 miR-22 靶位点。用抗 miR-22 处理可导致报告基因活性显著升高。此外,我们在大鼠模型中观察到组织分布中 miR-22 和甲状旁腺素 mRNA 之间存在体内负相关。在人肝癌细胞系 Huh7 和 HepG2 中也观察到 miR-22 降低甲状旁腺素蛋白的现象。到目前为止,当 AR42J-B13 细胞转染 miR-22、抗 miR-22 或甲状旁腺素表达载体,无论是否用地塞米松处理时,我们都没有检测到对几种转分化标志物有重大影响。因此,miR-22 似乎既不是转分化所必需的,也不是充分的。我们讨论了其他一些 microRNA 表达改变可能诱导细胞周期停滞导致转分化的可能性。
