Publicação: Estratégias computacionais e experimentais integradas para a inibição das toxinas esfoliativas de Staphylococcus aureus
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Supervisor
Arni, Raghuvir Krishnaswamy 
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Pós-graduação
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Universidade Estadual Paulista (Unesp)
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Relatório de pós-doc
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Resumo
Staphylococcus aureus is a bacterium responsible for a wide range of diseases, with the staphylococcal scalded skin syndrome (SSSS) being one of the most serious. The skin damage in SSSS is caused by S. aureus exfoliative toxins (ETs), which are chymotrypsin-like serine proteases (CLSPs) that cleave the cadherin desmoglein-1 (Dsg1). Four ETs of the CLSP family have been identified so far in S. aureus strains, the most common serotypes, ETA and ETB, being associated with SSSS in humans. ETD has been related to furuncles and cutaneous abscess and ETE has been found in isolates from ewe mastitis. Unlike most CLSPs, ETs possess an inactive oxyanion hole due to an unusual conformation of residue 192, do not hydrolyze most peptide substrates and are not affected by broad-specificity inhibitors. Previous findings support the oxyanion hole activation prior to Dsg-1 cleavage, which involves the flip of residue 192 triggered by the interaction of ETs with the substrate. As concerns have been raised due to the emergence of ET-encoding S. aureus strains resistant to antibiotics, the search for inhibitors against these proteases as an alternative to traditional antibiotics is greatly needed. Here, we will combine computational and experimental techniques to study various structural and mechanistic features of the ETs that remain elusive to this date that are crucial to the discovery of inhibitors. We intend to build reliable structural models for Dsg1 complexed with the ETs to probe the activation mechanism of the latter at atomic level. Site-directed mutagenesis will be used to validate our predictions experimentally. Furthermore, virtual screenings of oligopeptide and compound libraries will be conducted in the active site and potential allosteric cavities of the ETs. The best candidates will be tested to identify hits that halt Dsg-1 degradation in vitro. Finally, X-ray diffraction will be employed to gain structural insight into the interaction of ETs with promising hits. Overall, we expect to answer long- standing questions about the activity of ETs and to identify molecules preventing the detrimental effects
of these toxins on human and animal health.
Descrição
Palavras-chave
Staphylococcus aureus, Exfoliative toxins, Desmoglein, Staphylococcal scalded skin syndrome, Inhibitors, Virtual screening
Idioma
Inglês
