MiR-122 directly inhibits human papillomavirus E6 gene and enhances interferon signaling through blocking suppressor of cytokine signaling 1 in SiHa cells.

Junming He,Qingmeng Zhang,Qinglong Shang,Yujun Li,Aimei Li,Lanlan Wei,Jun Qian,Jinyun Zhao,Yuting Ji,Xin Yu,Fengmin Zhang,Wuqi Song,Hongxin Huang,Aixia Zhai,Martin E Rottenberg

doi:10.1371/journal.pone.0108410

Abstract

Human Papillomavirus (HPV) 16 infection is considered as one of the significant causes of human cervical cancer. The expression of the viral oncogenes like E6 and E7 play an important role in the development of the cancer. MiR-122 has been reported to exhibit a strong relationship with hepatitis viruses and take part in several tumor development, while the effects of miR-122 on HPV infection and the HPV viral oncogenes expression still remain unexplored. In this study, using RNAhybrid software, the potential binding sites between miR-122 and HPV16 E6 and E7 mRNAs were identified. Over and loss of miR-122 function showed that miR-122 could directly bind with HPV16 E6 mRNA and significantly inhibit its expression in SiHa cells, which was further confirmed by constructing the miR-122-E6-mu to eliminate the miR-122 binding effects with E6. The increase of the expression of type I interferon (IFN) and its classical effective molecules and the phosphorylation of signal transducers and activators of transcription (STAT1) protein indicated that miR-122 might enhance type I interferon in cervical carcinoma cells, which explained the significant reduction of HPV16 E7 and E6*I mRNA expression. This might be due to the binding between miR-122 and suppressor of cytokine signaling 1 (SOCS1) mRNA, which is the suppressor of interferon signaling pathway. Moreover, it was identified that the miR-122 binding position was nt359-nt375 in SOCS1 mRNA. Taken together, this study indicated that HPV16 could be effectively inhibited by miR-122 through both direct binding with E6 mRNA and promoting SOCS1-dependent IFN signaling pathway. Thus, miR-122 may serve as a new therapeutic option for inhibiting HPV infection.

Highlights

Human cervical cancer is a malignant neoplasm with the second highest female morbidity in the world [1]
It is recognized that miRNAs could target to the coding region of critical genes and lead to transcriptional and morphological changes characteristic of differentiating mouse embryonic stem cells [5] which inspired us that miRNAs could target to Human Papillomavirus (HPV) viral genome in host antiviral defenses
The prediction implied that miR-122 could possibly target HPV16 E6 and E7 mRNAs, but not E6*I or E6*II mRNAs

Summary

Introduction

Human cervical cancer is a malignant neoplasm with the second highest female morbidity in the world [1]. Many studies revealed the close correlation between HPV infection and cervical cancer development [2]. It is critical to inhibit HPV infection in the defense of cervical cancer. MicroRNAs (miRNAs) can modulate gene expression posttranscriptionally [3] and function in multiple biological processes. MiRNAs suppress the translation of target mRNAs by partially pairing with the 39 un-translational region (UTR) of mRNAs or initiate mRNA degradation by completely pairing with the 39UTR of mRNA [4]. It is recognized that miRNAs could target to the coding region of critical genes and lead to transcriptional and morphological changes characteristic of differentiating mouse embryonic stem cells [5] which inspired us that miRNAs could target to HPV viral genome in host antiviral defenses

Methods

Results

Conclusion