AI Article Synopsis
- A new series of diarylpyridine derivatives has been identified as effective inhibitors of HIV-1 non-nucleoside reverse transcriptase, showing strong activity in low nanomolar concentrations.
- The study involved docking 42 of these compounds into the HIV-1 reverse transcriptase and conducting molecular dynamics simulations, revealing key residues that might be crucial for their binding.
- Additionally, 3D-QSAR and pharmacophore models were developed, indicating excellent predictive capabilities and outlining essential structural features for the effectiveness of these compounds against HIV-1.
Article Abstract
A series of novel diarylpyridine derivatives has recently been identified as HIV-1 non-nucleoside reverse transcriptase inhibitors (NNRTIs), and most of them exhibited potent activities against HIV-1 strains, with EC values in the low nanomolar range. However, the three-dimensional quantitative structure-activity relationships (3D-QSARs) and pharmacophore characteristics of these compounds remain to be studied. In the present study, forty-two diarylpyridine derivatives were firstly docked into HIV-1 reverse transcriptase, and molecular dynamics (10 ns) simulations were further performed to validate the reliability of the docking results, which indicated that residues Lys101, Tyr181, Tyr188, Phe227, and Trp229 might play important roles in binding with these diarylpyridines. The "U"-shaped docking conformations of all compounds were then used to construct 3D-QSAR and pharmacophore models. The satisfactory statistical parameters of CoMFA ( = 0.665, = 0.989, = 0.962, ) and CoMSIA ( = 0.727, = 0.988, = 0.912, ) models demonstrated that both constructed models had excellent predictability, and their contour maps gave insights into the structural requirements of the diarylpyridines for the anti-HIV-1 activity. A docking-conformation-based pharmacophore model, containing three hydrophobic centers, three hydrogen-bond acceptors, and three hydrogen-bond donors, was also established. The observations in this study might provide important information for the rational design and development of novel HIV-1 NNRTIs.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9091378 | PMC |
| http://dx.doi.org/10.1039/c8ra06475j | DOI Listing |
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