In Silico, In Vitro and In Cellulo Models for Monitoring SARS-CoV-2 Spike/Human ACE2 Complex, Viral Entry and Cell Fusion

Lapaillerie, Delphine; Charlier, Cathy; Fernandes, Henrique S.; Sousa, Sérgio F.; Lesbats, Paul; Weigel, Pierre; Favereaux, Alexandre; Guyonnet‐Duperat, Véronique; Parissi, Vincent

doi:10.3390/v13030365

Cited by 16 publications

(32 citation statements)

References 27 publications

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“…These findings are similar to the study by Littler and co-workers who identified the surface of the hydrophobic interface cavity between Nsp9 dimer proteins 17 . This type of cavity analysis 41 , 42 has been applied to other protein systems 43 and has shown promise for screening enzyme inhibitors and may help in the search for molecules with anti-SARS-CoV-2 potential.…”

Section: Resultsmentioning

confidence: 99%

Structural, energetic and lipophilic analysis of SARS-CoV-2 non-structural protein 9 (NSP9)

Araújo

Pinheiro

Zamora

et al. 2021

Sci Rep

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In SARS-CoV-2 replication complex, the Non-structural protein 9 (Nsp9) is an important RNA binding subunit in the RNA-synthesizing machinery. The dimeric forms of coronavirus Nsp9 increase their nucleic acid binding affinity and the N-finger motif appears to play a critical role in dimerization. Here, we present a structural, lipophilic and energetic study about the Nsp9 dimer of SARS-CoV-2 through computational methods that complement hydrophobicity scales of amino acids with molecular dynamics simulations. Additionally, we presented a virtual N-finger mutation to investigate whether this motif contributes to dimer stability. The results reveal for the native dimer that the N-finger contributes favorably through hydrogen bond interactions and two amino acids bellowing to the hydrophobic region, Leu45 and Leu106, are crucial in the formation of the cavity for potential drug binding. On the other hand, Gly100 and Gly104, are responsible for stabilizing the α-helices and making the dimer interface remain stable in both, native and mutant (without N-finger motif) systems. Besides, clustering results for the native dimer showed accessible cavities to drugs. In addition, the energetic and lipophilic analysis reveal that the higher binding energy in the native dimer can be deduced since it is more lipophilic than the mutant one, increasing non-polar interactions, which is in line with the result of MM-GBSA and SIE approaches where the van der Waals energy term has the greatest weight in the stability of the native dimer. Overall, we provide a detailed study on the Nsp9 dimer of SARS-CoV-2 that may aid in the development of new strategies for the treatment and prevention of COVID-19.

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Section: Resultsmentioning

confidence: 99%

Structural, energetic and lipophilic analysis of SARS-CoV-2 non-structural protein 9 (NSP9)

Araújo

Pinheiro

Zamora

et al. 2021

Sci Rep

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“…The last 90 ns of the simulation were considered for hydrogen bonding analysis, and cluster analysis of the conformations was generated. This overall procedure has been previously used with success in the treatment of several biomolecular systems [49][50][51][52][53][54][55][56][57].…”

Section: Molecular Dynamics Simulations and Free Energy Calculationsmentioning

confidence: 99%

Amino Alcohols from Eugenol as Potential Semisynthetic Insecticides: Chemical, Biological, and Computational Insights

et al. 2021

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A series of β-amino alcohols were prepared by the reaction of eugenol epoxide with aliphatic and aromatic amine nucleophiles. The synthesized compounds were fully characterized and evaluated as potential insecticides through the assessment of their biological activity against Sf9 insect cells, compared with a commercial synthetic pesticide (chlorpyrifos, CHPY). Three derivatives bearing a terminal benzene ring, either substituted or unsubstituted, were identified as the most potent molecules, two of them displaying higher toxicity to insect cells than CHPY. In addition, the most promising molecules were able to increase the activity of serine proteases (caspases) pivotal to apoptosis and were more toxic to insect cells than human cells. Structure-based inverted virtual screening and molecular dynamics simulations demonstrate that these molecules likely target acetylcholinesterase and/or the insect odorant-binding proteins and are able to form stable complexes with these proteins. Encapsulation assays in liposomes of DMPG and DPPC/DMPG (1:1) were performed for the most active compound, and high encapsulation efficiencies were obtained. A thermosensitive formulation was achieved with the compound release being more efficient at higher temperatures.

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“…This overall procedure has been previously used with success in the treatment of several biomolecular systems. [55][56][57][58][59][60][61] In order to estimate the binding free energies of the ligands 6 and 8 toward acetylcholinesterase and odorant binding protein 1, the Molecular Mechanics-Generalized Born Surface Area (MM-GBSA) method 62 was applied, taking into account a salt concentration of 0.100 mol dm À3 . Also, the contribution of the amino acid residues was estimated using the energy decomposition method.…”

Section: Molecular Dynamics Simulations and Free Energy Calculationsmentioning

confidence: 99%

New carvacrol and thymol derivatives as potential insecticides: synthesis, biological activity, computational studies and nanoencapsulation

et al. 2021

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In Silico, In Vitro and In Cellulo Models for Monitoring SARS-CoV-2 Spike/Human ACE2 Complex, Viral Entry and Cell Fusion

Cited by 16 publications

References 27 publications

Structural, energetic and lipophilic analysis of SARS-CoV-2 non-structural protein 9 (NSP9)

Structural, energetic and lipophilic analysis of SARS-CoV-2 non-structural protein 9 (NSP9)

Amino Alcohols from Eugenol as Potential Semisynthetic Insecticides: Chemical, Biological, and Computational Insights

New carvacrol and thymol derivatives as potential insecticides: synthesis, biological activity, computational studies and nanoencapsulation

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