The Host miR-17-92 Cluster Negatively Regulates Mouse Mammary Tumor Virus (MMTV) Replication via miR-92a by Targeting the Viral Genome

Abstract The mouse mammary tumor virus (MMTV) induces mammary tumors in mice. Recently, we have shown that MMTV perturbs expression of the host miR-17-92 cluster in MMTV-infected mammary glands and MMTV-induced mammary tumors. Known as oncomiR-1, this cluster is often dysregulated in a number of cancers, especially breast cancer. Therefore, we investigated whether there was a functional interaction between MMTV and the cluster. Our results reveal that MMTV expression led to dysregulation of the cluster in both mammary epithelial HC11 and HEK293T cells with the expression of miR-92a cluster member being affected the most. Conversely, over-expression of the whole or partial cluster significantly repressed MMTV expression. Interestingly, overexpression of miR-92a alone resulted in MMTV repression to the same extent as observed with the whole or partial cluster. Inhibition of miR-92a led to nearly a complete recovery of MMTV gene expression. Deletion/substitution of the miR-92a seed sequence within the cluster rescued MMTV expression. Dual luciferase assays identified MMTV genomic RNA as the target of miR-92a. These results show that the miR-17-92 cluster acts as part of the cell’s well-known miRNA-based anti-viral response to thwart incoming MMTV infection. Interestingly, miR-92a expression was the least amongst cluster members in MMTV-induced breast tumors, suggesting that the elevated level of MMTV expression in tumors is due perhaps to MMTV subverting miR-92a overexpression, restricting its ability to control MMTV replication during tumorigenesis. Thus, our study provides the first evidence demonstrating the biological significance of host miRNAs in controlling MMTV replication and influencing the process of tumorigenesis. Importance MMTV is a non-acute, slow-transforming retrovirus that causes breast cancer and lymphomas in mice. Consequently, understanding how MMTV interacts with its host can reveal critical aspects of cellular anti-viral responses and the process of tumorigenesis. This study reveals that the host miR-17-92 cluster plays an anti-viral role during MMTV infection which seems to be counteracted by MMTV during tumorigenesis. This observation is significant since MMTV-induced tumors share similarity with human breast cancer and the MMTV/mouse model is the best mammalian animal model to study breast cancer initiation, progression, and therapy. Moreover, MMTV is increasingly (though controversial) being implicated in human breast cancer, leukemias/lymphomas, and biliary cirrhosis due to its potential zoonosis into humans. Thus, if proven true, understanding how miRNAs modulate MMTV replication will be critical in appreciating how hosts miRNAs affect virus replication/tumorigenesis, and towards the development of novel miRNA-based therapeutics (e.g., anti-miRs) to thwart MMTV replication in humans.