Abstract
High-risk strains of human papillomavirus (HPV) have been identified as the etiologic agent of some anogenital tract, head, and neck cancers. Although prophylactic HPV vaccines have been approved; it is still necessary a drug-based treatment against the infection and its oncogenic effects. The E6 oncoprotein is one of the most studied therapeutic targets of HPV, it has been identified as a key factor in cell immortalization and tumor progression in HPV-positive cells. E6 can promote the degradation of p53, a tumor suppressor protein, through the interaction with the cellular ubiquitin ligase E6AP. Therefore, preventing the formation of the E6-E6AP complex is one of the main strategies to inhibit the viability and proliferation of infected cells. Herein, we propose an in silico pipeline to identify small-molecule inhibitors of the E6-E6AP interaction. Virtual screening was carried out by predicting the ADME properties of the molecules and performing ensemble-based docking simulations to E6 protein followed by binding free energy estimation through MM/PB(GB)SA methods. Finally, the top-three compounds were selected, and their stability in the E6 docked complex and their effect in the inhibition of the E6-E6AP interaction was corroborated by molecular dynamics simulation. Therefore, this pipeline and the identified molecules represent a new starting point in the development of anti-HPV drugs.
Highlights
Human papillomavirus (HPV) infection is one of the most common sexually transmitted diseases
Virtual screening for HPV E6 protein inhibitors
Virtual screening for HPV E6 protein inhibitors with MM/GBSA and MM/PBSA methods, three candidate compounds were evaluated by Molecular Dynamics (MD) in interactions with E6 protein
Summary
Human papillomavirus (HPV) infection is one of the most common sexually transmitted diseases. Due to their oncogenic effect, some of the HPV strains have been identified as high-risk (HR) types, being the leading cause of cervical cancer and the etiologic agent of some anogenital tract and head and neck cancers [1]. HPV-16 is the most prevalent type in cervical cancer, accounting for approximately 55% of all cases [2]. Virtual screening for HPV E6 protein inhibitors. Bello (UNAB), Chile; CONACYT 693115 scholarship grant of JRL and DGAPA-UNAM fellowship of AVL. The funders had NO role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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