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Siderophore: A Suitable Candidate for Drug Delivery Using the Trojan Horse Strategy
Behnoush Khasheii, Pezhman Mahmoodi, Abdolmajid Mohammadzadeh,
Volume 15, Issue 5 (Sep-Oct 2021)
Abstract
Increasing antibiotic resistance is a global health problem. In recent years, due to the indiscriminate use of antibacterial compounds, many bacterial pathogens, including staphylococci, members of the Enterobacteriaceae family including Klebsiella pneumoniae and bacteria such as Pseudomonas aeruginosa and Acinetobacter baumannii have become multi-drug resistant. Consequently, it is important to explore alternative approaches for eliminating resistant strains. Bacteria synthesize low-weight molecules called siderophores to chelate iron from the environment as a vital element for their growth and survival. One way to deal with resistant bacterial strains is to utilize siderophore-mediated iron uptake pathways as entrance routes for drug delivery. Therefore, the production of drugs with Trojan horse strategy in the form of conjugated siderophore-antibiotic complexes has recently received much attention for dealing with resistant isolates. In this review, we discuss the efficacy of siderophore-antibiotic conjugates as a Trojan horse strategy for eliminating drug-resistant pathogens.
Antibiotic resistance genes in helicobacter pylori isolates from gastric biopsies of patients with gastrointestinal diseases in Golestan province, Iran
Azam Shareh , Behnoush Khasheii , Tayebeh Faraji , Masoud Khoshnia , Shaghayegh Anvari , Ailar Jamalli ,
Volume 19, Issue 4 (Jul-Aug 2025)
Abstract
Background: Antibiotic resistance in Helicobacter pylori infections can lead to treatment failure. This study aims to evaluate the antibiotic resistance to metronidazole, clarithromycin, and fluoroquinolone in H. pylori strains isolated from gastric biopsy specimens.
Methods: This study was conducted between 2016 and 2017 on 80 biopsy specimens obtained from Golestan province. Resistance to metronidazole (rdxA) and fluoroquinolones (gyrA) was determined using PCR. Mutations in the loci of the 23S rRNA gene associated with clarithromycin resistance were analyzed using PCR-RFLP with the BsaI and BbsI enzymes.
Results: In this study, 25% of H. pylori strains showed resistance to clarithromycin. Mutations in the A2143G locus (65%) and the A2142G locus (35%) were detected in these strains. Resistance to fluoroquinolones (27.5%) was observed, with the most common mutations being at the 91 amino acid position of aspartate (63.63%) and the 87 amino acid position of asparagine (36.36%). Resistance to metronidazole was not observed in any of the strains of this study, and concomitant resistance to clarithromycin and fluoroquinolones was observed in 13.75% of H. pylori strains.
Conclusion: According to our study, in Iran, the resistance of H. pylori to clarithromycin is increasing, which may lead to treatment failure. The mechanism of clarithromycin resistance is related to mutations in the A2143G and A2142G positions, and a mutation in the gyrA gene causes resistance to fluoroquinolones, which often occurs in the 91 amino acid position.
 

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