Generic placeholder image

Mini-Reviews in Medicinal Chemistry

Editor-in-Chief

ISSN (Print): 1389-5575
ISSN (Online): 1875-5607

Research Article

Molecular Dynamics Simulation Study of the HIV-1 Protease Inhibit ion Using Fullerene and New Fullerene Derivatives of Carbon Nanostructures

Author(s): Abolfazl Barzegar*, Esmail Naghizadeh, Mostafa Zakariazadeh and Jafar Azamat

Volume 17, Issue 7, 2017

Page: [633 - 647] Pages: 15

DOI: 10.2174/1389557516666160609080157

Price: $65

Abstract

Background: The water insolubility of fullerene C60 nanostructure greatly hampers its biological applications as an effective HIV-1 protease inhibitor, which suggests to synthesis new C60 derivatives with different functional polar groups.

Method: The new carbon nanostructures of fulleropyrrolidines with one and two polar acetoxyhydroxyl (AcH) groups (C60-A and C60-B, respectively) were constructed to evaluate their interactions and binding affinity into HIV-1 protease active site via theoretical molecular docking and molecular dynamic simulations. Data obviously indicated the higher affinity of fulleropyrrolidines derivatives C60-A and C60-B compared to fullerene C60 in interacting with HIV-1 protease active site cavity. The functional groups in C60 caused better residing of C60 derivatives in the center of active site by changing the spherical shape of C60, constructing different stable H-bonds with supporting the main π interactions between C60 and aromatic Phe53/Arg8 in protease active site. Our finding showed that the functionalization of C60 is essential for both increasing solubility and improving different π interactions of C60 with protease. Also, H-bond forming with AcH functional groups and enzyme active site residues is more important to support the van der Waals interactions between C60 fragment of fulleropyrrolidines and enzyme cavity. Since enzyme possesses aspartic acid residues in active site, C60-B with two AcH groups interacted with the active site more efficiently via additional H-bond relative to C60-A.

Results: Finally, the results indicate a possible use of the investigated fulleropyrrolidines derivatives as new HIV-1 protease inhibitors.

Keywords: AIDS, fullerene, fulleropyrrolidine, HIV-1 protease, molecular docking, molecular dynamic.

« Previous

Rights & Permissions Print Cite
© 2024 Bentham Science Publishers | Privacy Policy