Evaluation of combined carbon dots and ciprofloxacin on the expression level of pslA, pelA, and ppyR genes and biofilm production in ciprofloxacin-resistant Pseudomonas aeruginosa isolates from burn wound infection in Iran.

OBJECTIVES: Antimicrobial resistance and biofilm formation are increasingly significant public health concerns. This study aimed to examine the antibacterial and antibiofilm properties of carbon dots (C-dots) alone and in combination with antibiotics against biofilm-forming isolates of Pseudomonas aeruginosa. METHODS: The antibacterial property of C-dots was investigated by broth microdilution method against ATCC PAO1 and P. aeruginosa clinical isolates. The antibacterial effect of the C-dots and ciprofloxacin combination was investigated using the checkerboard method. The antibiofilm effect of the C-dots alone and its combination with ciprofloxacin was evaluated using the microtiter plate method. Subsequently, the toxicity of each agent was tested on L929 fibroblast cells. In the end, the effects of C-dots on the expression levels of pslA, pelA, and ppyR genes were determined using real-time quantitative PCR. RESULTS: The combination of C-dots and ciprofloxacin exhibited a synergistic effect. Additionally, this compound substantially decreased bacterial growth (P < 0.0001) and inhibited biofilm formation at MIC (96 µg/mL) and sub-MIC (48 µg/mL) concentrations (P < 0.0053, P < 0.01). After being exposed to C-dots at a concentration of 1mg/mL for 24 hours, the survival rate of L929 cells was 87.3%. The expression of genes pslA, pelA, and ppyR, associated with biofilm formation in P. aeruginosa, was significantly reduced upon exposure to C-dots (P < 0.0023). CONCLUSIONS: The findings demonstrate a promising new treatment method for infections. Furthermore, reducing the dosage of antibiotics can lead to an improvement in the toxic effects caused by dose-dependent antibiotics and antimicrobial activity.

Colorimetric detection of Helicobacter pylori DNA using isothermal helicase-dependent amplification and gold nanoparticle probes.

This study describes a nanodiagnostic method using thermophilic helicase-dependent isothermal amplification (tHDA) and gold nanoparticle probes for colorimetric detection of Helicobacter pylori DNA. The primers targeting ureC gene were used for the amplification of bacterial DNA by the isothermal tHDA reaction, resulting in the accumulation of DNA amplicons. The amplicons were hybridized with specific gold nanoparticle probes. The hybrids were colorimetrically detected by the assembly of gold nanoparticles. Using this method, we detected as little as 10 CFU mL(-1) of H. pylori within less than 1 h. Results obtained from the gastric biopsy samples showed 92.5% and 95.4% of sensitivity and specificity, respectively, in comparison with culture results, and 100% and 98.8% of sensitivity and specificity, respectively, in comparison with those of the histologic studies. Owing to its ease of operation, this assay significantly reduces the time and cost needed for the molecular diagnosis of H. pylori and has the potential to facilitate early detection of this pathogen.