Molecular Docking and Dynamics Simulation Revealed Ivermectin as Potential Drug against Schistosoma-Associated Bladder Cancer Targeting Protein Signaling: Computational Drug Repositioning Approach.
Arif Jamal SiddiquiMohammad Faheem KhanWalid Sabri HamadouManish GoyalSadaf JahanArshad JamalSyed Amir AshrafPankaj SharmaManojkumar SachidanandanRiadh BadrouiKundan Kumar ChaubeyEmira NoumiMohd AdnanPublished in: Medicina (Kaunas, Lithuania) (2021)
Urogenital schistosomiasis is caused by Schistosoma haematobium (S. haematobium) infection, which has been linked to the development of bladder cancer. In this study, three repurposing drugs, ivermectin, arteether and praziquantel, were screened to find the potent drug-repurposing candidate against the Schistosoma-associated bladder cancer (SABC) in humans by using computational methods. The biology of most glutathione S-transferases (GSTs) proteins and vascular endothelial growth factor (VEGF) is complex and multifaceted, according to recent evidence, and these proteins actively participate in many tumorigenic processes such as cell proliferation, cell survival and drug resistance. The VEGF and GSTs are now widely acknowledged as an important target for antitumor therapy. Thus, in this present study, ivermectin displayed promising inhibition of bladder cancer cells via targeting VEGF and GSTs signaling. Moreover, molecular docking and molecular dynamics (MD) simulation analysis revealed that ivermectin efficiently targeted the binding pockets of VEGF receptor proteins and possessed stable dynamics behavior at binding sites. Therefore, we proposed here that these compounds must be tested experimentally against VEGF and GST signaling in order to control SABC. Our study lies within the idea of discovering repurposing drugs as inhibitors against the different types of human cancers by targeting essential pathways in order to accelerate the drug development cycle.
Keyphrases
- vascular endothelial growth factor
- molecular docking
- endothelial cells
- molecular dynamics
- cancer therapy
- molecular dynamics simulations
- stem cells
- emergency department
- density functional theory
- risk assessment
- drug induced
- single cell
- mesenchymal stem cells
- drug delivery
- transcription factor
- bone marrow
- cell cycle
- young adults
- pi k akt
- smoking cessation
- virtual reality