Peer-reviewed veterinary case report
New thiazole compounds fight resistant Staphylococcus
By Mohammad, Haroon et al.·Published in PloS one·2015·Department of Comparative Pathobiology, United States·View original on PubMed →
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Original publication title: Antibacterial Characterization of Novel Synthetic Thiazole Compounds against Methicillin-Resistant Staphylococcus pseudintermedius.
- Species:
- dog
Plain-English summary
A study found that new synthetic thiazole compounds can effectively kill methicillin-resistant Staphylococcus pseudintermedius (MRSP), a bacteria that can cause infections in dogs. These compounds showed strong antibacterial activity and were able to re-sensitize MRSP to a common antibiotic, oxacillin, which could help in treating resistant infections. Importantly, the compounds were not toxic to dog cells, making them a promising option for future treatments. Further research is needed to explore their potential as new antibiotics for dogs suffering from infections caused by MRSP.
People also search for: dog skin infection treatment · MRSP in dogs · antibiotic resistance in dogs · new antibiotics for dog infections
Abstract
Staphylococcus pseudintermedius is a commensal organism of companion animals that is a significant source of opportunistic infections in dogs. With the emergence of clinical isolates of S. pseudintermedius (chiefly methicillin-resistant S. pseudintermedius (MRSP)) exhibiting increased resistance to nearly all antibiotic classes, new antimicrobials and therapeutic strategies are urgently needed. Thiazole compounds have been previously shown to possess potent antibacterial activity against multidrug-resistant strains of Staphylococcus aureus of human and animal concern. Given the genetic similarity between S. aureus and S. pseudintermedius, this study explores the potential use of thiazole compounds as novel antibacterial agents against methicillin-sensitive S. pseudintermedius (MSSP) and MRSP. A broth microdilution assay confirmed these compounds exhibit potent bactericidal activity (at sub-microgram/mL concentrations) against both MSSA and MRSP clinical isolates while the MTS assay confirmed three compounds (at 10 μg/mL) were not toxic to mammalian cells. A time-kill assay revealed two derivatives rapidly kill MRSP within two hours. However, this rapid bactericidal activity was not due to disruption of the bacterial cell membrane indicating an alternative mechanism of action for these compounds against MRSP. A multi-step resistance selection analysis revealed compounds 4 and 5 exhibited a modest (two-fold) shift in activity over ten passages. Furthermore, all six compounds (at a subinihibitory concentration) demonstrated the ability to re-sensitize MRSP to oxacillin, indicating these compounds have potential use for extending the therapeutic utility of β-lactam antibiotics against MRSP. Metabolic stability analysis with dog liver microsomes revealed compound 3 exhibited an improved physicochemical profile compared to the lead compound. In addition to this, all six thiazole compounds possessed a long post-antibiotic effect (at least 8 hours) against MRSP. Collectively the present study demonstrates these synthetic thiazole compounds possess potent antibacterial activity against both MSSP and MRSP and warrant further investigation into their use as novel antimicrobial agents.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/26086336/