Estudo de azaçúcares como inibidores de Glge, uma maltosiltransferase de Mycobacterium tuberculosis, por meio de docking molecular e da avaliação de interações moleculares
Resumo
Tuberculosis is still a worrying disease around the world, especially in low- and middle-income countries.
Current treatment for tuberculosis involves a combination of antibiotics, however, it is often ineffective due to
drug resistance and the difficulty of completely eliminating the disease-causing bacteria, namely
Mycobacterium tuberculosis. In this context, the use of molecular docking is a promising tool in the
development of new drugs for the treatment of tuberculosis. Molecular docking consists of the computational
analysis of the fitting of a drug candidate molecule with bacterial proteins, thus allowing the identification of
promising compounds and optimizing their effectiveness. Its use aims to accelerate the development of new
drugs, improving the effectiveness of tuberculosis treatment. In this context, azasugars have been studied as
possible drugs for the treatment of tuberculosis, due to their ability to inhibit the enzyme maltosyltransferase
(GlgE), essential for the survival of Mycobacterium tuberculosis. Furthermore, azasugars have low toxicity and
high selectivity, increasing their therapeutic efficacy. In this sense, in the present work we describe the study
of three series of azasugars with the aim of evaluating their potential as anti-tuberculosis drugs targeting GlgE.
The results point to a compound, called A532 in this study, as a substance of pharmacological interest for this
purpose, due to its favorable interaction with the active site of the enzyme, explained by the existence of a
network of π interactions and hydrogen bonds. Furthermore, the results presented provide further information
about the structure of possible GlgE-inhibiting azasugars and their relationship with the residues that make up
its active site.
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