AI Article Synopsis
- The study investigates the use of BET bromodomain inhibitors as potential antiviral drugs for treating human papillomavirus (HPV) infections, which can cause various lesions, some of which may be cancerous.
- BET proteins, especially BRD4, play a significant role in the HPV life cycle and transcription regulation, making them a target for therapeutic intervention.
- Results show that a specific BET inhibitor, I-BET762, effectively reduced HPV-related gene expression and inhibited wart growth in rabbits, as well as reduced cell viability in HPV-infected cells, suggesting a promising new approach to HPV treatment.
Article Abstract
The DNA papillomaviruses infect squamous epithelium and can cause persistent, benign and sometimes malignant hyperproliferative lesions. Effective antiviral drugs to treat human papillomavirus (HPV) infection are lacking and here we investigate the anti-papillomavirus activity of novel epigenetic targeting drugs, BET bromodomain inhibitors. Bromodomain and Extra-Terminal domain (BET) proteins are host proteins which regulate gene transcription, they bind acetylated lysine residues in histones and non-histone proteins via bromodomains, functioning as scaffold proteins in the formation of transcriptional complexes at gene regulatory regions. The BET protein BRD4 has been shown to be involved in the papillomavirus life cycle, as a co-factor for viral E2 and also mediating viral partitioning in some virus types. We set out to study the activity of small molecule BET bromodomain inhibitors in models of papillomavirus infection. Several BET inhibitors reduced HPV11 E1ˆE4 mRNA expression in vitro and topical therapeutic administration of an exemplar compound I-BET762, abrogated CRPV cutaneous wart growth in rabbits, demonstrating translation of anti-viral effects to efficacy in vivo. Additionally I-BET762 markedly reduced viability of HPV16 infected W12 cells compared to non-infected C33A cells. The molecular mechanism for the cytotoxicity to W12 cells is unknown but may be through blocking viral-dependent cell-survival factors. We conclude that these effects, across multiple papillomavirus types and in vivo, highlight the potential to target BET bromodomains to treat HPV infection.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5955851 | PMC |
| http://dx.doi.org/10.1016/j.antiviral.2018.03.012 | DOI Listing |
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