OCT4假基因在多能细胞系和肿瘤细胞系中的差异表达

E. Poursani, Bahram Mohammad Soltani, S. Mowla
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引用次数: 38

摘要

目的人类OCT4基因是最重要的多能性基因标记,可通过选择性剪接产生至少三种不同的转录本(OCT4A、OCT4B和OCT4B1)。OCT4A是负责胚胎干细胞(ES)干细胞特性的主要同工异构体。人类基因组中还存在8个与OCT4A高度同源的加工过的OCT4假基因,其中一些在各种癌症中都有转录。最近关于肿瘤细胞和组织中OCT4表达的相互矛盾的报道强调需要区分OCT4A与其他变体以及OCT4假基因的表达。材料和方法本实验研究通过DNA测序证实了OCT4假基因转录本的真实性,并通过逆转录聚合酶链反应(RT-PCR)在不同人类细胞系中研究了其表达模式。结果OCT4假基因在人肿瘤和多能细胞系中的表达存在差异。此外,oct4 -假基因3 (OCT4-pg3)在NTERA-2 (NT2)多能细胞系神经分化过程中的表达模式与OCT4A一致。虽然OCT4-pg3在未分化的NT2细胞中高表达,但在诱导神经分化后,其表达迅速下调。Western blotting分析OCT4A、OCT4-pg1、OCT4-pg3和OCT4-pg4蛋白表达结果表明,OCT4假基因不能产生稳定的蛋白。与新提出的假基因microRNA对接位点的竞争作用一致,我们在OCT4和OCT4假基因的所有转录本上检测到miR-145结合位点。结论本研究提示OCT4假基因在分化或肿瘤发生过程中具有潜在的编码独立功能。
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Differential Expression of OCT4 Pseudogenes in Pluripotent and Tumor Cell Lines
Objective The human OCT4 gene, the most important pluripotency marker, can generate at least three different transcripts (OCT4A, OCT4B, and OCT4B1) by alternative splicing. OCT4A is the main isoform responsible for the stemness property of embryonic stem (ES) cells. There also exist eight processed OCT4 pseudogenes in the human genome with high homology to the OCT4A, some of which are transcribed in various cancers. Recent conflicting reports on OCT4 expression in tumor cells and tissues emphasize the need to discriminate the expression of OCT4A from other variants as well as OCT4 pseudogenes. Materials and Methods In this experimental study, DNA sequencing confirmed the authenticity of transcripts of OCT4 pseudogenes and their expression patterns were investigated in a panel of different human cell lines by reverse transcription-polymerase chain reaction (RT-PCR). Results Differential expression of OCT4 pseudogenes in various human cancer and pluripotent cell lines was observed. Moreover, the expression pattern of OCT4-pseudogene 3 (OCT4-pg3) followed that of OCT4A during neural differentiation of the pluripotent cell line of NTERA-2 (NT2). Although OCT4-pg3 was highly expressed in undifferentiated NT2 cells, its expression was rapidly down-regulated upon induction of neural differentiation. Analysis of protein expression of OCT4A, OCT4-pg1, OCT4-pg3, and OCT4-pg4 by Western blotting indicated that OCT4 pseudogenes cannot produce stable proteins. Consistent with a newly proposed competitive role of pseudogene microRNA docking sites, we detected miR-145 binding sites on all transcripts of OCT4 and OCT4 pseudogenes. Conclusion Our study suggests a potential coding-independent function for OCT4 pseudogenes during differentiation or tumorigenesis.
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