Abstract
Within a series of dipeptide derivatives (5–11), compound 4 was refluxed with d-glucose, d-xylose, acetylacetone, diethylmalonate, carbon disulfide, ethyl cyanoacetate, and ethyl acetoacetate which yielded 5–11, respectively. The candidates 5–11 were characterized and their biological activities were evaluated where they showed different anti-microbial inhibitory activities based on the type of pathogenic microorganisms. Moreover, to understand modes of binding, molecular docking was used of Nicotinoylglycine derivatives with the active site of the penicillin-binding protein 3 (PBP3) and sterol 14-alpha demethylase’s (CYP51), and the results, which were achieved via covalent and non-covalent docking, were harmonized with the biological activity results. Therefore, it was extrapolated that compounds 4, 7, 8, 9, and 10 had good potential to inhibit sterol 14-alpha demethylase and penicillin-binding protein 3; consequently, these compounds are possibly suitable for the development of a novel antibacterial and antifungal therapeutic drug. In addition, in silico properties of absorption, distribution, metabolism, and excretion (ADME) indicated drug likeness with low to very low oral absorption in most compounds, and undefined blood–brain barrier permeability in all compounds. Furthermore, toxicity (TOPKAT) prediction showed probability values for all carcinogenicity models were medium to pretty low for all compounds.
Highlights
IntroductionKnown as niacin, has been used since 1950 as a lipid-altering therapy [1]
Nicotinic acid, known as niacin, has been used since 1950 as a lipid-altering therapy [1]
Novel dipeptide derivatives based on nicotinoyl-glycyl-glycine-hydrazide were synthesized in this study; these derivatives are hypothesized to contain different antifungal and antibacterial characteristics
Summary
Known as niacin, has been used since 1950 as a lipid-altering therapy [1]. Nicotinic acid reduces triglyceride and lipoprotein cholesterol levels [2]. It reduces the risk of atherosclerotic coronary heart disease, atherosclerotic progression, and cardiovascular complication factors [3,4,5]. AMPs can kill enveloped viruses and fungi [11]. They have many modes of action for kill microbes, [12] and the modes of action are likely to vary across several bacterial species [13]. A portion of anti-microbial peptide derivatives eliminates bacteria and fungi, such as cases where Psoriasin kills
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