To identify hepatitis B virus (HBV)-related lncRNA(s), we previously examined the transcription profiles of the HBV-transgenic cell line HepG2-4D14 and parental HepG2 cells by RNA deep sequencing and identified 38 upregulated long noncoding RNAs (lncRNAs). In the present study, the lncRNA MAFG-AS1 is investigated in detail because its gene is located adjacent to the MAFG gene, which is an important transcription factor involved in cell proliferation. The level of MAFG-AS1 is significantly higher in HCC tissue than in nontumor tissues. TCGA data show that the expression level of MAFG-AS1 is negatively correlated with survival of HCC patients. GEO cohort data show that compared with healthy tissues, the expression level of MAFG-AS1 is significantly higher in HBV-infected liver tissues. Real-time PCR and luciferase reporter assay data show that HBx can enhance the transcription of MAFG-AS1. Gain-of-function and loss-of-function experiments indicate that MAFG-AS1 promotes proliferation, migration, and invasion of HCC cells. Tumor formation assay results demonstrate that knockdown of MAFG-AS1 significantly inhibits cell proliferation in nude mice. Furthermore, MAFG-AS1 enhances the transcription of adjacent MAFG via E2F1. Additionally, MAFG-AS1 interacts with three subunits (MYH9, MYL12B, and MYL6) of nonmuscle myosin IIA (NM IIA).Knockdown of MAFG-AS1 inhibits ATPase activity of MYH9, interaction of NM IIA subunits, and cell cycle progression. Thus, the lncRNA MAFG-AS1 is upregulated by HBV and promotes proliferation and migration of HCC cells. Our findings suggest that MAFG-AS1 is a potential oncogene that may contribute to HBV-related HCC development.
Hepatitis B virus (HBV) infection is closely related to hepatocellular carcinoma (HCC) development. To investigate the mechanism of HBV causing HCC, we previously analyzed the transcription of the HBV-transgenic cell line HepG2-4D14 and parental HepG2 cells and identified a subset of long noncoding RNAs (lncRNAs) differentially expressed between them. In this study, we focus on lncRNA LINC01010, as it is significantly downregulated in HepG2-4D14 cells and in liver tissues of HCC patients, and positively correlated with survival. We found that HBV-encoded HBx can reduce the transcription of LINC01010. Functional analysis showed that the overexpression of LINC01010 inhibits proliferation, migration and invasion of HepG2 cells while the knockdown of LINC01010 promotes these processes. By taking the approach of RNA immunoprecipitation (RIP) and mass spectrometry, we identified that LINC01010 can interact with vimentin. Further studies demonstrated that LINC01010 negatively affects the vimentin network extension and causes more rapid subunit exchange and lower stability of vimentin filaments. In addition, LINC01010 can reduce the amount of insoluble vimentin within cells, which suggests that LINC01010 interfers with vimentin polymerization. These data indicate that LINC01010 can inhibit the assembly of vimentin filament. Thus, we revealed that HBV HBx-downregulated LINC01010, which suppresses cell proliferation and migration by negatively regulating the formation of vimentin filament. Taken together, LINC01010 is a potential tumor suppressor that may restrain HBV-related HCC development.
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