Abstract
The widespread of antibiotic resistance (ABR) among bacteria has become a global health concern for humans, animals and the environment. In this respect, beta-lactams and colistin are of particular interest due to the emergence of multidrug-resistant gram-negative bacteria. Households provide a habitat for bacteria originating from humans, animals, foods, contaminated clothes or other sources in which detergents and biocides are frequently used. Thus, bacteria carrying antibiotic resistance genes (ARGs) might be introduced into private households and may consequently be also released from households to the environment via domestic wastewater. Since data on ABR in the domestic environment is limited, this study aimed to determine the abundance and correlation of beta-lactamase, mobile colistin resistance and class 1 integron genes and to characterize phenotypic resistant strains in private households in Germany. Additionally, the persistence of ABR bacteria to laundering and automated dishwashing was assessed. Shower drains, washing machines and dishwashers were sampled and analyzed using quantitative real-time PCR. Resistant strains were isolated, followed by identification and antibiotic susceptibility testing using VITEK 2. The results show a significantly higher occurrence of ARGs in shower drains compared to washing machines and dishwashers. Several beta-lactamase genes co-occurred and resistance of bacterial isolates correlated positively with genotypic resistance. Laundering and automated dishwashing reduced ABR bacteria significantly and the efficacy increased with increasing duration and temperature. Overall, the domestic environment seems to represent a potential reservoir of beta-lactamase genes and beta-lactam resistant bacteria with shower drains as the dominant source of ABR.
Importance The abundance of ABR bacteria and ARGs is steadily increasing and has been comprehensively analyzed in natural environments, animals, foods or wastewater treatment plants. Despite of their connection to these environments, private households seem to be neglected. Therefore, the present study investigated shower drains, washing machines and dishwashers as possible sites of ARGs and ABR bacteria. The analysis of the domestic environment as a potential reservoir of resistant bacteria is crucial to determine whether households contribute to the spread of ABR or are a habitat where resistant bacteria from the environment, humans, food or water accumulate.
Footnotes
Author order was determined both based on contribution and seniority, the last author is the supervisor.