Bacterial Disease Division, Animal and Plant Quarantine Agency, 177 Hyeksin 8-ro, Gimcheon-si, Gyeongsangbuk-do 39660, Republic of Korea.
College of Veterinary Medicine & Institute Veterinary Science, Kangwon National University, Chuncheon, Gangwon-do 24341, Republic of Korea.
Int J Food Microbiol. 2020 Jun 2;322:108572. doi: 10.1016/j.ijfoodmicro.2020.108572. Epub 2020 Feb 24.
Global dissemination of non-typhoidal Salmonella producing extended-spectrum β-lactamase (ESBL) is a public-health concern. Recently, the prevalence of Salmonella spp. resistant to third-generation cephalosporins has been increasing in food-producing animals in Korea. In this study, we investigated resistance mechanisms and molecular characteristics of S. Virchow isolates resistant to extended-spectrum cephalosporins (ESCs). We obtained 265 S. Virchow isolates from fecal and carcasses samples of cattle (n = 2), pigs (n = 7), and chickens (n = 256) during 2010-2017, and observed high ESC-resistance (63.8%, 169/265); most of the resistant isolates (96.4%) were obtained from chickens. ESC-resistant S. Virchow isolates (n = 169) showed significantly higher resistance rates to other antimicrobials (especially aminoglycosides and tetracycline, p-value <0.0001), as well as prevalence of multidrug resistance, than did ESC-susceptible S. Virchow isolates (n = 96). All ESC-resistant S. Virchow produced CTX-M-15-type ESBL (n = 147) and/or CMY-2-type AmpC β-lactamase (n = 23). ESC-resistant S. Virchow represented seven pulsotypes, predominantly composed of type II (58.6%) and III (26.0%), detected in 69 farms in 10 provinces, and 33 farms in 7 provinces, respectively. Genes encoding ESC-resistance were horizontally transferred by conjugation to recipient E. coli J53; this was demonstrated in 28.8% (42/146) of bla-positive isolates and in 50.0% (11/22) of bla-positive isolates. All conjugative plasmids carrying bla and bla genes belonged to ST2-IncHI2 and ST12/CC12-IncI1, respectively. Genetic features of transferred bla genes were involved with ISEcp1 in both bla and bla; ISEcp1 plays a critical role in the efficient capture, expression, and mobilization of bla genes. In addition to bla genes, resistance markers to aminoglycosides and/or tetracycline were co-transferred to recipient E. coli J53. Our results show a high prevalence of ESBL-producing S. Virchow in chickens and chicken carcasses. Specific bla and bla-carrying S. Virchow clones and plasmids were predominant in food-producing animals nationwide. Restriction of antimicrobial use and proper biosecurity practices at the farm level should be urgently implemented in the poultry industry.
产超广谱β-内酰胺酶(ESBL)非伤寒沙门氏菌的全球传播是一个公共卫生关注问题。最近,韩国食用动物中对第三代头孢菌素耐药的沙门氏菌的流行率一直在增加。在这项研究中,我们研究了对扩展谱头孢菌素(ESC)耐药的 S. Virchow 分离株的耐药机制和分子特征。我们从 2010 年至 2017 年期间从牛(n=2)、猪(n=7)和鸡(n=256)的粪便和尸体样本中获得了 265 株 S. Virchow 分离株,并观察到 ESC 耐药性(63.8%,169/265)很高;大多数耐药分离株(96.4%)来自鸡。ESC 耐药 S. Virchow 分离株(n=169)对其他抗菌药物(尤其是氨基糖苷类和四环素,p 值<0.0001)的耐药率以及多重耐药率明显高于 ESC 敏感 S. Virchow 分离株(n=96)。所有 ESC 耐药的 S. Virchow 均产生 CTX-M-15 型 ESBL(n=147)和/或 CMY-2 型 AmpC β-内酰胺酶(n=23)。ESC 耐药的 S. Virchow 代表了七种脉冲型,主要由 II 型(58.6%)和 III 型(26.0%)组成,分别在 10 个省的 69 个农场和 7 个省的 33 个农场中检测到。编码 ESC 耐药性的基因通过接合转移到受体 E. coli J53 中;在 28.8%(42/146)bla 阳性分离株和 50.0%(11/22)bla 阳性分离株中均检测到这种情况。携带 bla 和 bla 基因的所有接合质粒分别属于 ST2-IncHI2 和 ST12/CC12-IncI1。转移 bla 基因的遗传特征与 bla 和 bla 中的 ISEcp1 有关;ISEcp1 在 bla 基因的有效捕获、表达和转移中起关键作用。除了 bla 基因外,氨基糖苷类和/或四环素的耐药标记也被转移到受体 E. coli J53 中。我们的研究结果表明,鸡和鸡胴体中 ESBL 产生产生 S. Virchow 的流行率很高。在全国范围内的食用动物中,存在具有特定 bla 和 bla 基因的 S. Virchow 克隆和质粒。应在禽类养殖行业中紧急实施限制抗菌药物使用和适当的生物安全措施。
