AI Article Synopsis
- Accurate detection of antibiotic sensitivity in bacteria is essential for effective treatment and controlling antibiotic resistance, but it's challenging to assess changes in bacterial membranes that relate to resistance.
- Researchers developed new fluorescent dyes, 4AP-C9 and 4AP-C13, which help visualize and quantify how antibiotics affect bacterial membranes at a very precise level.
- The dyes' unique properties allow for detecting membrane damage and quantifying resistance sensitivity through advanced imaging techniques, showing promise for rapid and accurate diagnosis of resistant infections in clinical settings.
Article Abstract
Accurate detection of bacterial antibiotic sensitivity is crucial for theranostics and the containment of antibiotic-resistant infections. However, the intricate task of detecting and quantifying the antibiotic-induced changes in the bacterial cytoplasmic membrane, and their correlation with other metabolic pathways leading to antibiotic resistance, poses significant challenges. Using a novel class of 4-aminophthalimide (4AP)-based fluorescent dyes with precisely tailored alkyl chains, namely 4AP-C9 and 4AP-C13, we quantify stress-mediated alterations in membranes. Leveraging the unique depth-dependent positioning and environment-sensitive fluorescence properties of these dyes, we detect antibiotic-induced membrane damage through single-cell imaging and monitoring the fluorescence peak maxima difference ratio (PMDR) of the dyes within the bacterial membrane, complemented by other methods. The correlation between the ROS-induced cytoplasmic membrane damage and the PMDR of dyes quantifies sensitivity against bactericidal antibiotics, which correlates to antibiotic-induced lipid peroxidation. Significantly, our findings largely extend to clinical isolates of and other ESKAPE pathogens like and subspecies. Our data reveal that 4AP-Cn probes can potentially act as precise scales to detect antibiotic-induced membrane damage ("thinning") occurring at a subnanometer scale through the quantification of dyes' PMDR, making them promising membrane dyes for rapid detection of bacterial antibiotic resistance, distinguishing sensitive and resistant infections with high specificity in a clinical setup.
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| http://dx.doi.org/10.1021/acsinfecdis.4c00249 | DOI Listing |
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