Shanghai Veterinary Research Institute, Chinese Academy of Agricultural Sciences, Shanghai 200241, China.
J Antimicrob Chemother. 2013 Jun;68(6):1251-5. doi: 10.1093/jac/dkt015. Epub 2013 Feb 5.
To investigate the genetic basis of pleuromutilin resistance in porcine methicillin-resistant Staphylococcus aureus (MRSA) and to map the genetic environment of the identified plasmid-borne resistance gene.
Seventy porcine MRSA isolates, which exhibited high MICs of tiamulin, valnemulin and retapamulin, were investigated for pleuromutilin resistance genes and mutations. They were characterized by staphylococcal cassette chromosome mec (SCCmec) typing, spa typing and multilocus sequence typing (MLST). Plasmid DNA was extracted from the lsa(E)-positive strains and transferred to S. aureus RN4220 for selection of resistance plasmids. The plasmid-borne lsa(E) gene region was sequenced and 10 overlapping PCR assays for the analysis of the genetic environment of lsa(E) were developed.
All 70 MRSA isolates were ST9 (MLST)-t899 (spa)-IVa (SCCmec). Sixteen isolates carried the lsa(E) gene; all others were negative for known pleuromutilin resistance mechanisms. An lsa(E)-carrying plasmid of ∼41 kb was detected in a single isolate. Sequence analysis revealed that the lsa(E) gene was located in a multiresistance gene cluster, which showed partial homology to clusters identified in MRSA, methicillin-susceptible S. aureus (MSSA) and Enterococcus faecalis. PCR analysis of the remaining isolates revealed a partly deleted multiresistance gene cluster in 6/15 isolates and solely the lsa(E) gene without the known flanking regions in 9/15 isolates.
We identified the pleuromutilin-lincosamide-streptogramin A resistance gene lsa(E) in porcine MRSA isolates. The multiresistance gene cluster in which lsa(E) was located differed from the previously described ones found in human MRSA/MSSA or in E. faecalis. The location of lsa(E) on a multiresistance plasmid facilitates its persistence and dissemination.
研究猪耐甲氧西林金黄色葡萄球菌(MRSA)中截短侧耳素耐药的遗传基础,并对鉴定的质粒携带耐药基因的遗传环境进行定位。
对 70 株表现出泰妙菌素、沃尼妙林和雷帕霉素高 MIC 的猪 MRSA 分离株进行截短侧耳素耐药基因和突变检测。采用葡萄球菌盒式染色体 mec(SCCmec)分型、spa 分型和多位点序列分型(MLST)对其进行表征。从 lsa(E)-阳性株中提取质粒 DNA,并转至金黄色葡萄球菌 RN4220 中筛选耐药质粒。对携带的质粒 lsa(E)基因区域进行测序,并开发了 10 个重叠 PCR 检测分析 lsa(E)的遗传环境。
70 株 MRSA 分离株均为 ST9(MLST)-t899(spa)-IVa(SCCmec)。16 株携带 lsa(E)基因;其余均为已知截短侧耳素耐药机制阴性。在单个分离株中检测到一个约 41kb 的 lsa(E)携带质粒。序列分析表明,lsa(E)基因位于一个多耐药基因簇中,该基因簇与 MRSA、甲氧西林敏感金黄色葡萄球菌(MSSA)和粪肠球菌中鉴定的基因簇具有部分同源性。对其余分离株的 PCR 分析显示,在 6/15 株分离株中存在部分缺失的多耐药基因簇,而在 9/15 株分离株中仅存在 lsa(E)基因,而没有已知的侧翼区域。
我们在猪耐甲氧西林金黄色葡萄球菌分离株中鉴定出截短侧耳素-林可酰胺-链阳菌素 A 耐药基因 lsa(E)。lsa(E)所在的多耐药基因簇与之前在人耐甲氧西林金黄色葡萄球菌/甲氧西林敏感金黄色葡萄球菌或粪肠球菌中发现的基因簇不同。lsa(E)位于多耐药质粒上,使其易于存活和传播。
