1. Inhibition of β-lactamase-mediated oxacillin resistance in Staphylococcus aureus by a deoxyribozyme
- Author
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Jie Liu, Benquan Hu, Xiaoxing Luo, Zheng Hou, Jin-rong Zhao, Min Jia, Jingru Meng, and Xiao-jun Yan
- Subjects
Methicillin-Resistant Staphylococcus aureus ,medicine.drug_class ,Penicillin Resistance ,Antibiotics ,Deoxyribozyme ,medicine.disease_cause ,beta-Lactamases ,Microbiology ,Antibiotic resistance ,Bacterial Proteins ,Transcription (biology) ,polycyclic compounds ,medicine ,Pharmacology (medical) ,RNA, Messenger ,Gene ,Oxacillin ,Pharmacology ,Chemistry ,DNA, Catalytic ,General Medicine ,biochemical phenomena, metabolism, and nutrition ,Methicillin-resistant Staphylococcus aureus ,Anti-Bacterial Agents ,DNA-Binding Proteins ,Staphylococcus aureus ,Signal transduction ,beta-Lactamase Inhibitors - Abstract
Aim: To investigate the oxacillin susceptibility restoration of methicillin-resistant Staphylococcus aureus (MRSA) by targeting the signaling pathway of blaR1-blaZ with a DNAzyme. Methods: A DNAzyme (named PS-DRz602) targeting blaR1 mRNA was designed and synthesized. After DRz602 was introduced into a MRSA strain WHO-2, the colony-forming units of WHO-2 on the Mueller-Hinton agar containing 6 mg/L oxacillin and the minimum inhibitory concentrations of oxacillin were determined. The inhibitory effects of DRz602 on the expressions of antibiotic-resistant gene blaR1 and its downstream gene blaZ were detected by real time RT-PCR. Results: PS-DRz602 significantly decreased the transcription of blaR1 mRNA and led to the significant reduction of blaZ in a concentration-dependent manner. Consequently, the resistance of S aureus WHO-2 to the β-lactam antibiotic oxacillin was significantly inhibited. Conclusion: Our results indicated that blocking the blaR1-blaZ signaling pathway via DNAzyme might provide a viable strategy for inhibiting the resistance of MRSA to β-lactam antibiotics and that BlaR1 might be a potential target for pharmacological agents combating MRSA.
- Published
- 2007
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