The Effect of Mercury Exposure to Escherichia Coli Bacteria Resistant to Mercury and Escerichia Coli Esbl in Vitro

D. Kusumawati
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Abstract

Background: The level of pollution in Indonesia is still very high, consist of water pollution, air pollution and soil pollution. Mercury is one of the heavy metals that pollutes the waters of the sea, while Escherichia coli is exposed to mercury will try to defend itself by doing mercury detoxification so that it can live in an environment that contains mercury. Escherichia coli that tries to defend itself from mercury exposure in the environment will experience a change in its genes into mercury resistant Escherichia coli. In plasmids or transposons, it might also stimulate the formation of resistance genes for some antibiotics, include producing the ESBL enzyme, so that it can convert non ESBL Escherichia coli into ESBL Escherichia coli. Objective: This study aims to prove that the repeated exposure of mercury will change non ESBL-mercury sensitive Escherichia coli into ESBL- mercury resistant Escherichia coli. Method: This was an experimental study with 27 non-ESBL Escherichia coli isolates as identified from Phoenix. Non-ESBL Escherichia coli clinical isolates were tested by giving exposure to HgCl2 with concentrations of 0.02 ppm, 0.10 ppm, 0.20 ppm for 1-14 days until mercury resistant Escherichia coli was formed, and then ESBL screening was tested by giving Cefotaxime exposure to them. Results:  On the first day of mercury exposure, there were 9 isolates of 0.02 ppm HgCl2 resistant Escherichia coli, 9 isolates of 0.10 ppm HgCl2 resistant Escherichia coli, 9 isolates of 0.20 ppm HgCl2 resistant Escherichia coli. Furthermore, this Escherichia coli isolate was exposed to Cefotaxim as ESBL screening. The final results of post-exposure HgCl2 0.02 ppm was obtained 3 (33.3%) isolates were still sensitive to Cefotaxime and 6 (66.7%) isolates that were resistant to Cefotaxime. The final results of post-exposure HgCl2 0.10 ppm was obtained all 9 (100%) isolates that were resistant to Cefotaxime. The final results of post-exposure HgCl2 0.20 ppm obtained 2 (22.2%) isolates were still sensitive to Cefotaxime and 7 (77.8%) isolate were resistant to Cefotaxime. Conclusion: Escherichia coli in urine had the phenotive change into mercury resistant Escherichia coli. Mercury exposure of 0.02 ppm, 0.10 ppm, 0.20 ppm for 1 day in vitro on isolates of non ESBL-mercury resistant Escherichia coli caused changes in 22 isolates of Escherichia coli in urine
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汞暴露对体外抗汞大肠杆菌和大肠杆菌的影响
背景:印度尼西亚的污染水平仍然很高,包括水污染,空气污染和土壤污染。汞是污染海水的重金属之一,而接触汞的大肠杆菌会试图通过汞解毒来保护自己,这样它就可以在含有汞的环境中生存。试图保护自己免受环境中汞暴露的大肠杆菌将经历基因变化,变成抗汞大肠杆菌。在质粒或转座子中,它还可能刺激某些抗生素耐药基因的形成,包括产生ESBL酶,从而将非ESBL大肠杆菌转化为ESBL大肠杆菌。目的:本研究旨在证明反复接触汞会使非ESBL-汞敏感大肠杆菌转变为ESBL-汞抗性大肠杆菌。方法:对凤凰市分离的27株非esbl型大肠杆菌进行实验研究。非ESBL大肠杆菌临床分离株通过暴露于浓度为0.02 ppm、0.10 ppm、0.20 ppm的HgCl2 1-14天,直至形成耐汞大肠杆菌,然后通过暴露于头孢噻肟进行ESBL筛选试验。结果:接触汞第1天,有9株0.02 ppm HgCl2耐药大肠杆菌,9株0.10 ppm HgCl2耐药大肠杆菌,9株0.20 ppm HgCl2耐药大肠杆菌。此外,该大肠杆菌分离物暴露于头孢噻肟作为ESBL筛选。接触HgCl2 0.02 ppm后,3株(33.3%)对头孢噻肟仍敏感,6株(66.7%)对头孢噻肟耐药。暴露后HgCl2 0.10 ppm的最终结果显示,9株(100%)菌株均对头孢噻肟耐药。暴露后HgCl2浓度为0.20 ppm,最终结果为2株(22.2%)对头孢噻肟仍敏感,7株(77.8%)耐药。结论:尿中大肠埃希菌有向耐汞大肠埃希菌转化的现象。对非esbl -抗汞大肠杆菌分离株进行0.02 ppm、0.10 ppm和0.20 ppm的汞暴露1天,导致22株大肠杆菌尿中发生变化
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