Ceftiofur treatment of sows results in long-term alterations in the nasal microbiota of the offspring that can be ameliorated by inoculation of nasal colonizers.

IF 4.9 Q1 MICROBIOLOGY
Miguel Blanco-Fuertes, Marina Sibila, Giovanni Franzo, Pau Obregon-Gutierrez, Francesc Illas, Florencia Correa-Fiz, Virginia Aragón
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引用次数: 1

Abstract

Background: The nasal microbiota of the piglet is a reservoir for opportunistic pathogens that can cause polyserositis, such as Glaesserella parasuis, Mycoplasma hyorhinis or Streptococcus suis. Antibiotic treatment is a strategy to control these diseases, but it has a detrimental effect on the microbiota. We followed the piglets of 60 sows from birth to 8 weeks of age, to study the effect of ceftiofur on the nasal microbiota and the colonization by pathogens when the treatment was administered to sows or their litters. We also aimed to revert the effect of the antibiotic on the nasal microbiota by the inoculation at birth of nasal colonizers selected from healthy piglets. Nasal swabs were collected at birth, and at 7, 15, 21 and 49 days of age, and were used for pathogen detection by PCR and bacterial culture, 16S rRNA amplicon sequencing and whole shotgun metagenomics. Weights, clinical signs and production parameters were also recorded during the study.

Results: The composition of the nasal microbiota of piglets changed over time, with a clear increment of Clostridiales at the end of nursery. The administration of ceftiofur induced an unexpected temporary increase in alpha diversity at day 7 mainly due to colonization by environmental taxa. Ceftiofur had a longer impact on the nasal microbiota of piglets when administered to their sows before farrowing than directly to them. This effect was partially reverted by the inoculation of nasal colonizers to newborn piglets and was accompanied by a reduction in the number of animals showing clinical signs (mainly lameness). Both interventions altered the colonization pattern of different strains of the above pathogens. In addition, the prevalence of resistance genes increased over time in all the groups but was significantly higher at weaning when the antibiotic was administered to the sows. Also, ceftiofur treatment induced the selection of more beta-lactams resistance genes when it was administered directly to the piglets.

Conclusions: This study shed light on the effect of the ceftiofur treatment on the piglet nasal microbiota over time and demonstrated for the first time the possibility of modifying the piglets' nasal microbiota by inoculating natural colonizers of the upper respiratory tract.

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头孢噻呋对母猪的治疗会导致后代鼻腔微生物群的长期改变,接种鼻腔定植剂可以改善这种改变。
背景:仔猪的鼻腔微生物群是可能导致多发性鼻窦炎的机会性病原体的宿主,如副猪毛滴虫、猪莱茵支原体或猪链球菌。抗生素治疗是控制这些疾病的一种策略,但它对微生物群有不利影响。我们跟踪观察了60头母猪从出生到8周龄的仔猪,以研究头孢噻呋对母猪或其窝仔进行治疗时鼻腔微生物群和病原体定植的影响。我们还旨在通过在出生时接种从健康仔猪中选择的鼻腔定植体来恢复抗生素对鼻腔微生物群的影响。在出生时以及7、15、21和49天大时采集鼻拭子,并通过PCR和细菌培养、16S rRNA扩增子测序和全鸟枪宏基因组学用于病原体检测。研究期间还记录了体重、临床症状和生产参数。结果:随着时间的推移,仔猪鼻腔微生物群的组成发生了变化,梭状芽孢杆菌在育婴结束时明显增加。头孢噻呋给药在第7天诱导了α多样性的意外暂时增加,这主要是由于环境分类群的定殖。与直接给仔猪使用相比,在分娩前给母猪使用头孢噻呋对仔猪鼻腔微生物群的影响更长。通过给新生仔猪接种鼻定植剂,这种效果部分恢复,并伴随着出现临床症状(主要是跛行)的动物数量减少。两种干预措施都改变了上述病原体不同菌株的定植模式。此外,随着时间的推移,所有组中抗性基因的流行率都有所增加,但在断奶时,当对母猪施用抗生素时,其流行率明显更高。此外,当直接给仔猪服用头孢噻呋时,可诱导更多β-内酰胺类耐药基因的选择。结论:本研究阐明了头孢噻呋治疗对仔猪鼻腔微生物群的影响,并首次证明了通过接种上呼吸道的天然定植体来改变仔猪鼻腔微生物组的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
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审稿时长
13 weeks
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