AI Article Synopsis
- Amoxicillin resistance in Helicobacter pylori is linked to specific mutations in the penicillin-binding protein-1A (PBP-1A), but the exact mutations responsible are not fully understood.
- The study investigated patients with ongoing H. pylori infections after multiple treatment attempts by analyzing gastric biopsy samples to identify resistant strains and their genetic mutations.
- Results showed that 17 out of 39 cultured H. pylori isolates were amoxicillin-resistant, with multiple PBP-1A mutations present, suggesting a strain-specific mechanism for resistance, highlighting a need for better diagnostic tools in managing such infections.*
Article Abstract
Background: Amoxicillin resistance in Helicobacter pylori is mainly associated with mutations in penicillin-binding protein-1A (PBP-1A). However, the specific amino acid substitutions in PBP-1A that confer amoxicillin resistance in H. pylori remain to be investigated.
Objective: This study aimed to investigate the molecular mechanism underlying amoxicillin resistance in patients with refractory H. pylori infection.
Methods: Esophagogastroduodenoscopy (EGD) was performed in patients with persistent H. pylori infection after at least two courses of H. pylori eradication therapy between January-2018 to March-2021. Refractory H. pylori was cultured from the gastric biopsy specimens. Antibiotic susceptibility testing was conducted to determine the minimum inhibitory concentrations (MICs). Sequence analysis of pbp-1A was performed for amoxicillin-resistant strains.
Results: Thirty-nine successfully cultured isolates were classified as refractory H. pylori isolates, and seventeen isolates were resistant to amoxicillin (MIC > 0.125 mg/L). Sequence analysis of resistant strains showed multiple mutations in the C-terminal region of PBP-1A that conferred amoxicillin resistance in H. pylori. However, the number of PBP-1A mutations did not correlate with the high MICs of amoxicillin-resistant isolates. Notably, some amino acid substitutions were identified in all Taiwanese isolates with history of eradication failure but not in published amoxicillin-susceptible strains, suggesting that the mutations may play a role in conferring antibiotic resistance to these strains.
Conclusions: Our results show that amoxicillin resistance in refractory H. pylori is highly correlated with numerous PBP-1A mutations that are strain specific. Continuous improvements in diagnostic tools, particularly molecular analysis approaches, can help to optimize current antimicrobial regimens.
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| http://dx.doi.org/10.1016/j.jmii.2022.07.006 | DOI Listing |
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