miR-34a negatively regulates cell cycle factor Cdt2/DTL in HPV infected Cervical Cancer Cells
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Abstract
MicroRNAs have emerged as an important factor in regulating cell cycle and various other cellular processes. Aberration in microRNAs has been linked with development of several cancers and other diseases but still very little is known about the mechanism behind their function in regulating cellular processes. 99% of cervical cancer is caused by the infection of high-risk HPVs (HR HPVs) which suppresses multiple tumor suppressors and checkpoint factors of the host cell. It also stabilizes oncogenic proteins, one of them is Cdt2/DTL which promotes cell transformation and proliferation. In this study, we have reported that in cervical cancer cell lines miR-34a by targeting HPV E6 protein, regulates Cdt2/DTL protein level and leads to its destabilization. Destabilization of Cdt2 stabilizes onco-suppressor proteins like p21 and Set8 in these cell lines. We have also shown that the overexpression of miR-34a suppresses cell proliferation, invasion and migration capabilities of HPV positive cervical cancer cells which was reverted by overexpression of either HPV E6 or Cdt2 genes. This is the first-ever report to show that miR-34a regulates cell cycle factor Cdt2 by suppressing viral E6 protein level, which opens up the scope of exploring miR-34a as a specific therapy for cervical cancer treatment. Abstract Figure
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