头孢噻呋乳内治疗对奶牛肠道微生物组和抗生素耐药性的持续影响。

IF 4.9 Q1 MICROBIOLOGY Animal microbiome Pub Date : 2023-11-09 DOI:10.1186/s42523-023-00274-4
Karla A Vasco, Samantha Carbonell, Rebekah E Sloup, Bailey Bowcutt, Rita R Colwell, Karlis Graubics, Ronald Erskine, Bo Norby, Pamela L Ruegg, Lixin Zhang, Shannon D Manning
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引用次数: 0

摘要

背景:乳内(IMM)头孢噻呋治疗通常用于奶牛场预防乳腺炎,尽管其对牛肠道微生物组和抗生素耐药性细菌选择的影响尚未阐明。在此,我们招募了40头泌乳期结束时的奶牛(荷斯坦)进行干牛治疗:20头接受IMM头孢噻呋(Spectraast®DC)和非抗生素内部乳头密封剂(亚硝酸铋)治疗,20头(对照组)仅接受亚硝酸铋治疗。在治疗前后(第1、2、3、5、7和9周)采集粪便抓取样本,用于细菌定量和宏基因组下一代测序。结果:278份样品中,对氨苄青霉素和头孢噻呋耐药的革兰氏阴性菌分别占90%和24%。大多数接受头孢噻呋治疗的奶牛的耐药性细菌数量没有增加;然而,有一部分(25%)在治疗后2周内脱落了较高水平的头孢噻呋耐药细菌。在第5周,抗生素处理的奶牛的微生物群丰度和丰富度较低,而在第1、5和9周,观察到编码超广谱β-内酰胺酶(ESBLs)、CfxA、ACI-1和CMY的基因丰度较高。此外,重叠群和网络分析检测到β-内酰胺抗性基因与噬菌体、可移动遗传元件和特定属之间的关联。拟杆菌门的共生菌群最常见的是ESBL基因,其次是肠杆菌科的成员。结论:本研究强调了IMM头孢噻呋处理对奶牛肠道微生物组和耐药性的可变、持久影响。经过抗生素治疗的牛的特定分类群和编码ESBL产生的基因丰度增加,并持续了9周。产ESBL的肠杆菌科的粪便脱落被列为严重的公共健康威胁,不同动物的粪便脱落情况不同。总之,这些发现强调了需要进行更多的研究,以确定与脱落水平以及抗生素耐药性决定因素在不同地理位置奶牛场的传播和持久性相关的因素。
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Persistent effects of intramammary ceftiofur treatment on the gut microbiome and antibiotic resistance in dairy cattle.

Background: Intramammary (IMM) ceftiofur treatment is commonly used in dairy farms to prevent mastitis, though its impact on the cattle gut microbiome and selection of antibiotic-resistant bacteria has not been elucidated. Herein, we enrolled 40 dairy (Holstein) cows at the end of the lactation phase for dry-cow therapy: 20 were treated with IMM ceftiofur (Spectramast®DC) and a non-antibiotic internal teat sealant (bismuth subnitrate) and 20 (controls) received only bismuth subnitrate. Fecal grab samples were collected before and after treatment (weeks 1, 2, 3, 5, 7, and 9) for bacterial quantification and metagenomic next-generation sequencing.

Results: Overall, 90% and 24% of the 278 samples had Gram-negative bacteria with resistance to ampicillin and ceftiofur, respectively. Most of the cows treated with ceftiofur did not have an increase in the number of resistant bacteria; however, a subset (25%) shed higher levels of ceftiofur-resistant bacteria for up to 2 weeks post-treatment. At week 5, the antibiotic-treated cows had lower microbiota abundance and richness, whereas a greater abundance of genes encoding extended-spectrum β-lactamases (ESBLs), CfxA, ACI-1, and CMY, was observed at weeks 1, 5 and 9. Moreover, the contig and network analyses detected associations between β-lactam resistance genes and phages, mobile genetic elements, and specific genera. Commensal bacterial populations belonging to Bacteroidetes most commonly possessed ESBL genes followed by members of Enterobacteriaceae.

Conclusion: This study highlights variable, persistent effects of IMM ceftiofur treatment on the gut microbiome and resistome in dairy cattle. Antibiotic-treated cattle had an increased abundance of specific taxa and genes encoding ESBL production that persisted for 9 weeks. Fecal shedding of ESBL-producing Enterobacteriaceae, which was classified as a serious public health threat, varied across animals. Together, these findings highlight the need for additional studies aimed at identifying factors associated with shedding levels and the dissemination and persistence of antibiotic resistance determinants on dairy farms across geographic locations.

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