Abstract
Background: Artificial microRNAs (miRNAs) are designed to develop an RNAi-based gene therapy. Recently, it has been suggested that the flanking sequences and terminal loop structure play a critical role in RNAi biogenesis and target recognition, but no extensive study regarding the different miRNA backbone for artificial miRNAs optimization has been conducted.
Objective: We tested three artificial miRNAs with human hsa-miR30a (common miRNA), hsa-miR150 (T cell specific miRNA), and hsa-miR122 (liver specific miRNA) backbones in HEK-293T and Jurkat cell lines.
Methods: Artificial miRNA processing and knockdown efficiency were analyzed by stem-loop RT-PCR, qRT-PCR, luciferase assay and target challenging.
Results: We identified strikingly different RNAi activities among these different artificial miRNAs. Our results demonstrated that expression and function of art-miR150 was more than art-miR30 and artmiR122 in both HEK-293T and Jurkat cell lines. Since the main difference in these artificial miRNAs was flanking sequences and terminal loop structure, the change between the expression and function of artificial miRNAs can be attributed to these structures.
Conclusion: This study showed that expression of cell-specific artificial miRNA in target and nontarget cells is not different, but variation in flanking sequences and terminal loop can be involved in expression and function of artificial miRNAs. These results can be important for improving artificial miRNA design in RNAi-based gene therapy.
Keywords: Artificial miRNA expression, biogenesis, HIV-1, microRNA, RNAi-based gene therapy, terminal loop structure.
Graphical Abstract