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Friday, November 23, 2018

Molecular docking and in silico studies of the physicochemical properties of potential inhibitors for the phosphotransferase system of Streptococcus mutans

Publication date: Available online 22 November 2018

Source: Archives of Oral Biology

Author(s): Wbeimar Andrey Rivera-Péreza, Andrés Felipe Yépes-Pérez, Maria Cecilia Martínez-Pabóna

Abstract

This study identified potential inhibitory compounds of the phosphoenolpyruvate-sugar

Phosphotransferase system of S. mutans, specifically enzyme II mannose transporter (EIIMan) in its subunits IIA, IIB and IIC by means of a selection protocol and in silico molecular analysis.

Intervening the phosphotransferase system would compromise the physiological behavior and the pathogenic expression of S. mutans, and possibly other acidogenic bacteria that use phosphotransferases in their metabolism—making the phosphotransferase system a therapeutic target for the selective control of acidogenic microorganisms in caries control.

Several computational techniques were used to evaluate molecular, physicochemical, and toxicological aspects of various compounds. Molecular docking was used to calculate the binding potential (ΔG) between receptor protein subunits and more than 836,000 different chemical compounds from the ZINC database. Physicochemical parameters related to the compounds' pharmacokinetic and pharmacodynamic indicators were evaluated, including absorption, distribution, metabolism, excretion, and toxicity (ADMET), and chemical analysis characterized the compounds structures.

Thirteen compounds with EII binding potential of the phosphotransferase system of S. mutans and favorable ADMET properties were identified. Six spirooxindoles and three pyrrolidones stand out from the found compounds; unique structural characteristics of spirooxindoles and pyrrolidones associated with various reported biological activities like anti-microbial, antiinflammatory, anticancer, nootropic, neuroprotective and antiepileptic effects, among other pharmacological effects with surprising differences in terms of mechanisms of action.

Following studies will provide more evidence of the action of these compounds on the phosphotransferase system of S. mutans, and its possible applications.



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