Abstract
Objective:
More than 3 million individuals globally suffer from systemic lupus erythematosus (SLE) with no radical therapy for such a multi-organ disease. The present in silico study explores the virtual repurposing of certain monoclonal antibodies (mAb) against the emerging target toll-like receptor 7 (TLR-7).
Materials and Methods:
The 3D structure of TLR-7 and the shortlisted mAb were retrieved from Alphafold and Thera-SabDab datasets, which were then subjected to docking by pyDockWEB and HDOCK webservers. Molecular dynamics (MD) simulations and MM/GBSA were also predicted for the best docked complex.
Results:
Bevacizumab was the best potential antagonist mAb of human TLR-7 in terms of protein docking. MD simulations unveiled the stability and the flexibility of the docked complex and MM/GBSA predicted the hotspot residues of the TLR-7-Bevacizumab.
Conclusion:
Bevacizumab can be deemed as potential repurposed mAb for treating SLE in silico, which needs experimental validation.
Keywords:
Systemic lupus erythematosus, autoimmune disease, mAb, docking, MD simulationsVOLUME
,
ISSUE
Correspondence
Received
Accepted
Published
Suggested Citation
DOI
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