Investigating Key Molecular Descriptors Affecting Particle Size: A Predictive Exemplary Approach for Self-Emulsifying System

Daware, Snehal; Raje, Vishvesh; Patel, Akanksha; Patel, Ketan

doi:10.1021/acs.molpharmaceut.2c01118

Cited by 2 publications

(2 citation statements)

References 56 publications

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“…The Pharmaceutical Data Exploration Laboratory (PaDEL) descriptor toolkit was utilized to calculate essential molecular descriptors that contribute to the anti-schistosomiasis activities of the derivatives [ 39 ]. This involved importing the 3D structures saved in sdf file format into the PaDEL software.…”

Section: Methodsmentioning

confidence: 99%

Unveiling potent inhibitors for schistosomiasis through ligand-based drug design, molecular docking, molecular dynamics simulations and pharmacokinetics predictions

Ja’afaru,

Uzairu,

Bayil

et al. 2024

PLoS ONE

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Schistosomiasis is a neglected tropical disease which imposes a considerable and enduring impact on affected regions, leading to persistent morbidity, hindering child development, diminishing productivity, and imposing economic burdens. Due to the emergence of drug resistance and limited management options, there is need to develop additional effective inhibitors for schistosomiasis. In view of this, quantitative structure-activity relationship studies, molecular docking, molecular dynamics simulations, drug-likeness and pharmacokinetics predictions were applied to 39 Schistosoma mansoni Thioredoxin Glutathione Reductase (SmTGR) inhibitors. The chosen QSAR model demonstrated robust statistical parameters, including an R2 of 0.798, R2adj of 0.767, Q2cv of 0.681, LOF of 0.930, R2test of 0.776, and cR2p of 0.746, confirming its reliability. The most active derivative (compound 40) was identified as a lead candidate for the development of new potential non-covalent inhibitors through ligand-based design. Subsequently, 12 novel compounds (40a-40l) were designed with enhanced anti-schistosomiasis activity and binding affinity. Molecular docking studies revealed strong and stable interactions, including hydrogen bonding, between the designed compounds and the target receptor. Molecular dynamics simulations over 100 nanoseconds and MM-PBSA free binding energy (ΔGbind) calculations validated the stability of the two best-designed molecules. Furthermore, drug-likeness and pharmacokinetics prediction analyses affirmed the potential of these designed compounds, suggesting their promise as innovative agents for the treatment of schistosomiasis.

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Section: Methodsmentioning

confidence: 99%

Unveiling potent inhibitors for schistosomiasis through ligand-based drug design, molecular docking, molecular dynamics simulations and pharmacokinetics predictions

Ja’afaru,

Uzairu,

Bayil

et al. 2024

PLoS ONE

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“…The molecular topology approach focuses on the use of topological and topo-chemical descriptors to describe molecules, giving a chemo-mathematical interpretation of the relationship between a structure and its biological properties, by means of graph theory, which determines the connectivity of the atoms within the molecule and how it relates with different physicochemical properties. The value of this kind of descriptors is not altered by the specific molecule 3D conformation. − To develop the QSAR strategy, the authors started from the initial data set of fungal CDA inhibitors identified in a previous work (Table S1). Starting from the hypothesis that CDA is also present in nematodes, which are chitin-containing organisms, a set of experiments on nematode Caenorhabditis elegans were carried out to determine the nematicide activity of the 20 compounds previously identified as fungal CDA inhibitors.…”

Section: Introductionmentioning

confidence: 99%

Rational Design of a Potential New Nematicide Targeting Chitin Deacetylase

Galvez-Llompart,

Zanni,

Vela-Corcía

et al. 2024

J. Agric. Food Chem.

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In a previously published study, the authors devised a molecular topology QSAR (quantitative structure−activity relationship) approach to detect novel fungicides acting as inhibitors of chitin deacetylase (CDA). Several of the chosen compounds exhibited noteworthy activity. Due to the close relationship between chitin-related proteins present in fungi and other chitincontaining plant-parasitic species, the authors decided to test these molecules against nematodes, based on their negative impact on agriculture. From an overall of 20 fungal CDA inhibitors, six showed to be active against Caenorhabditis elegans. These experimental results made it possible to develop two new molecular topology-based QSAR algorithms for the rational design of potential nematicides with CDA inhibitor activity for crop protection. Linear discriminant analysis was employed to create the two algorithms, one for identifying the chemo-mathematical pattern of commercial nematicides and the other for identifying nematicides with activity on CDA. After creating and validating the QSAR models, the authors screened several natural and synthetic compound databases, searching for alternatives to current nematicides. Finally one compound, the N2-(dimethylsulfamoyl)-N-{2-[(2-methyl-2propanyl)sulfanyl]ethyl}-N2-phenylglycinamide or nematode chitin deacetylase inhibitor, was selected as the best candidate and was further investigated both in silico, through molecular docking and molecular dynamic simulations, and in vitro, through specific experimental assays. The molecule shows favorable binding behavior on the catalytic pocket of C. elegans CDA and the experimental assays confirm potential nematicide activity.

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Investigating Key Molecular Descriptors Affecting Particle Size: A Predictive Exemplary Approach for Self-Emulsifying System

Cited by 2 publications

References 56 publications

Unveiling potent inhibitors for schistosomiasis through ligand-based drug design, molecular docking, molecular dynamics simulations and pharmacokinetics predictions

Unveiling potent inhibitors for schistosomiasis through ligand-based drug design, molecular docking, molecular dynamics simulations and pharmacokinetics predictions

Rational Design of a Potential New Nematicide Targeting Chitin Deacetylase

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