Effects of age and pasture type on the concentration and prevalence of tetracycline and macrolide resistant Enterococcus species in beef cow-calf production system

G. Agga, H. Galloway, A. Netthisinghe
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引用次数: 1

Abstract

Enterococci are a normal flora of the gastrointestinal tracts of humans and animals. Enterococci can also cause life-threatening nosocomial infections. Antimicrobial-resistant Enterococcus species have been reported in the feedlot and dairy cattle productions and in meat and milk products, suggesting their foodborne importance. Cow-calf operations represent a significant segment in the beef production system by producing weaned calves. Weaned calves are brought into the feedlot to be finished for meat, and culled cows are also slaughtered for beef, primarily for ground beef products. Infection dynamics in the cow-calf operation can contribute to meat contamination. This study evaluated the effects of age and wheat grazing on the concentration and prevalence of a macrolide antibiotic erythromycin (ERYr) and tetracycline (TETr) resistant enterococci, associated resistance genes and species distribution in a cow-calf production system. In 2017 and 2018, 32 Angus breed cow-calf pairs were randomly assigned to feed on tall fescue or wheat pasture in two independent field experiments. During the grazing experiments of 2-3 weeks, fecal samples were collected weekly and cultured to enumerate, isolate and identify ERYr, TETr, and generic enterococci, using media supplemented with erythromycin, tetracycline or non-supplemented media, respectively. The two main species frequently associated with human illnesses, Enterococcus faecium and E. faecalis, were widely distributed in the cow-calf groups. Generic and TETr- enterococci were prevalent (96-100% prevalence) and abundant (3.2-4.9 log10 CFU/g) in the cow-calf population; however, ERYr enterococci were enumerable by direct plating only from a single cow despite being detected in at least 40% of the fecal samples after enrichment, showing their low abundance. TET- and ERY-resistance were mainly conferred by tet(M) and erm(B), respectively. Wheat grazing reduced the concentration of TETr enterococci and modified enterococcal species and resistance gene distributions. Hence, it is necessary to further investigate wheat grazing in cow-calf production as a potential strategy to mitigate antimicrobial resistance.
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年龄和牧场类型对肉牛-犊牛生产系统中四环素和大环内酯类耐药肠球菌浓度和流行率的影响
肠球菌是人类和动物胃肠道的一种正常菌群。肠球菌还可引起危及生命的医院感染。据报道,在饲养场和奶牛生产以及肉类和奶制品中发现了耐抗生素肠球菌,这表明它们具有食源性重要性。在生产断奶小牛的牛肉生产系统中,小牛业务是一个重要的部分。断奶的小牛被带到饲养场进行肉制品加工,被淘汰的奶牛也被屠宰用于牛肉,主要用于碎牛肉产品。在母牛犊牛操作中的感染动态可导致肉污染。本研究评估了年龄和小麦放牧对牛-小牛生产系统中大环内酯类抗生素红霉素(ERYr)和四环素(TETr)耐药肠球菌的浓度和流行、相关耐药基因和物种分布的影响。2017年和2018年,在两个独立的田间试验中,将32对安格斯品种牛犊牛随机分配到高羊茅或小麦牧场。在2-3周的放牧实验中,每周收集粪便样本进行培养,分别使用添加红霉素、四环素和未添加的培养基,对ERYr、TETr和通用肠球菌进行枚举、分离和鉴定。经常与人类疾病相关的两种主要物种,即粪肠球菌和粪肠球菌,广泛分布于母牛-小牛群中。普通肠球菌和TETr-肠球菌在犊牛群体中普遍存在(96-100%),数量丰富(3.2-4.9 log10 CFU/g);然而,尽管在富集后至少40%的粪便样本中检测到ERYr肠球菌,但通过直接电镀只能从一头奶牛中计数,显示出其低丰度。TET-和ery耐药主要分别由TET (M)和erm(B)引起。放牧小麦降低了TETr肠球菌的浓度,并改变了肠球菌的种类和抗性基因分布。因此,有必要进一步研究在犊牛生产中放牧小麦作为减轻抗微生物药物耐药性的潜在策略。
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