Exploring the Molecular Structural Requirements of Flavonoids as Beta- Secretase-1 Inhibitors Using Molecular Modeling Studies

Author:

More Uttam A.1ORCID,Noolvi Malleshappa N.1,Kumar Devendra2ORCID,Tripathi Avanish3ORCID

Affiliation:

1. Department of Pharmaceutical Chemistry, Shree Dhanvantary Pharmacy College, Kim 394110, Surat, Gujarat, India

2. Department of Pharmaceutical Chemistry, School of Pharmacy & Technology Management, SVKM’s NMIMS (Deemed-to-Be) University, Mukesh Patel Technology Park, Shirpur 425405, India

3. Department of Pharmaceutical Chemistry, Institute of Pharmaceutical Research, GLA University Mathura, Uttar Pradesh, India

Abstract

Background:: BACE1 (beta-site amyloid precursor protein (APP) cleaving enzyme) is a key target for Alzheimer's disease research because it catalyses the rate-limiting step in the formation of amyloid protein (Aβ). Natural dietary flavonoids have gained a lot of interest as potential Alzheimer's therapy candidates because of their anti-amyloidogenic, antioxidative, and anti-inflammatory properties. More research is needed, however, to learn more about the specific routes through which flavonoids may have neuroprotective benefits in Alzheimer's disease. Objective:: Here, we report an in silico molecular modeling study for natural compounds, particularly flavonoids, as BACE-1 inhibitors. Methods:: The interactions of flavonoids with the BACE-1 catalytic core were disclosed by demonstrating the predicted docking pose of flavonoids with BACE-1. The stability of flavonoids BACE-1 complex was analyzed by molecular dynamic simulation (standard dynamic cascade). Results:: Our findings imply that these flavonoids, which have methoxy group instead of hydroxy may be promising BACE1 inhibitors that could reduce Aβ formation in Alzheimer's disease. The molecular docking study revealed that flavonoids e bind with the BACE1’s wide active site along with the catalytic residues Asp32 and Asp228. Further molecular dynamic investigation revealed that the average RMSD for all complexes ranged from 2.05 to 2.32 Å, indicating that the molecules were relatively stable during MD simulation. The RMSD analyses demonstrate that the flavonoids were structurally stable during the MD simulation. The RMSF was utilised to study the time-dependent fluctuation of the complexes. The N-terminal (~2.5 Å) fluctuates less than the C-terminal (~6.5 Å). Rutin and Hesperidin were highly stable in the catalytic region as compared to other flavonoids like Rhoifolin, Hesperidin, Methylchalcone, Phlorizin and Naringin. Conclusion:: We were able to justify the flavonoids' selectivity for BACE-1 and crossing BBB for the treatment of Alzheimer's disease by using a combination of molecular modelling tools.

Funder

Modernisation & Removal of Obsolescence (MODROB), All India Council for Technical Education (AICTE), New Delhi, India

Publisher

Bentham Science Publishers Ltd.

Subject

Drug Discovery

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