Genetic deletion of HPV E7 oncogene effectively regresses HPV driven oral squamous carcinoma tumour growth

Abstract

The major HPV oncogenes, E6 and E7, are known for its notoriety in driving the carcinogenic process in human papilloma virus (HPV) driven cancers. It is well-established that the removal of E7 dampens HPV cancer cell growth and proliferation. This has made E7 an attractive target for HPV cancers. Seminal work from our laboratory employed a CRISPR editing approach to delete E7 which resulted in the effective elimination of HPV+ cervical cancer tumours in vivo. We have also successfully delayed HPV+ tumour growth in vivo with aurora kinase (AURK) inhibitors, an effect which is strongly sensitized by the presence of E7. Unlike our previous observations in cervical cancer cells, in vitro targeting of E6/E7 have only resulted in partial killing of HPV+ oral squamous carcinoma (OSC) cells. However, the effect of sustained removal of E7 on HPV+ OSC tumour growth have not been explored. In this study, we investigated a staggered combination of aurora kinase inhibition, using alisertib, followed by CRISPR editing of E7, to determine if this would lead to better HPV+ OSC killing. Remarkably, genetic deletion of E7 alone was sufficient to effectively regress established HPV+ OSC tumours in vivo suggesting that E7 is essential in the maintenance of HPV+ OSC cancers.