层段丝状菌定植并影响肉鸡肠道健康。

IF 3.7 2区 生物学 Q2 MICROBIOLOGY
mSphere Pub Date : 2024-11-21 Epub Date: 2024-10-18 DOI:10.1128/msphere.00492-24
Jared Meinen-Jochum, Caleb J Skow, Melha Mellata
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引用次数: 0

摘要

在商业化家禽饲养场中,雏鸡在孵化过程中会远离其祖先,并从祖先那里获得关键的宿主特异性微生物群,如参与生命早期肠道成熟的分节丝状菌(SFB)。本研究调查了为刚孵化的肉鸡提供鸡分段丝状菌是否会提高它们的肠道成熟度以及对与肉鸡和人类健康有关的细菌的抵抗力。一天龄的 Ross308 肉鸡口服磷酸盐缓冲盐水(CON)或来源于蛋鸡的 SFB(D-SFB)。第 5、10、17 和 24 天,收集粪便以检测和计数 SFB 和肠杆菌科细菌。第 8、15、22 和 29 天,对鸟类实施安乐死,收集肠道样本,通过定量 PCR(qPCR)和显微镜检测和计数 SFB,并通过反转录-qPCR 检测与肠道免疫功能相关的基因表达。这项研究表明,尽管具有宿主特异性,但蛋鸡SFB可以在其基因不同的相对肉鸡中定植。经SFB处理一周后,回肠SFB定植速度加快,并覆盖了回肠的近端、内侧和远端。SFB早期在回肠的定植高度激活了肠道屏障蛋白和细胞因子的基因表达,如IL-10和IFNγ,但没有激活IL-17。在体外测试中,SFB 处理降低了肠道中肠杆菌的水平,并提供了对肠道和肠道外病原体的卓越抵抗力。总之,SFB 的早期肠道定植对于肠道免疫系统的成熟和肠道平衡环境的建立至关重要。重要意义在商业化养殖场中,新孵化的雏鸡可能缺乏宿主特异性微生物群,而宿主特异性微生物群有助于雏鸡肠道免疫系统的成熟,从而为雏鸡的终生健康带来益处。在这里,在孵化时通过口服向商业化饲养的鸡引入禽类分段丝状菌(SFB)可加速 SFB 在回肠的定植。值得注意的是,来自蛋鸡的 SFB 能够在肉鸡体内定植并增强肠道免疫成熟,这种免疫调节影响了增强肠道和肠道外对家禽和人类健康相关细菌的抵抗力的能力。随着动物生产中抗生素的限制,迫切需要有助于减轻感染的策略。总之,我们为新孵化的雏鸡开发了一种活疫苗,以改善动物健康和食品安全。由于 SFB 的宿主特异性,我们的数据强调了研究 SFB 在其宿主中相互作用的分子机制的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Layer segmented filamentous bacteria colonize and impact gut health of broiler chickens.

In commercial poultry farms, chicks hatch away from their progenitors from which they acquire key host-specific microbiota, like segmented filamentous bacteria (SFB) involved in gut maturation in early life. This study investigated whether providing chicken SFB to newly hatched broilers would increase their gut maturation and resistance to bacteria relevant to broiler and human health. One-day-old Ross308 broilers were orally treated with either phosphate-buffered saline (CON) or layer-derived SFB (D-SFB). On days 5, 10, 17, and 24, feces were collected to detect and enumerate SFB and Enterobacteriaceae. On days 8, 15, 22, and 29, birds were euthanized, intestinal samples were collected to detect and enumerate SFB through quantitative PCR (qPCR) and microscopy and expression of genes associated with gut immune function through reverse transcription-qPCR. This study showed that, despite their host specificity, layer SFB can colonize their genetically distinct relative broilers. Ileal SFB colonization was accelerated by a week with the SFB treatment and covered the proximal, medial, and distal sections of the ileum. Colonization of the ileum by SFB in early life highly activated gene expression of intestinal barrier proteins and cytokines, e.g., IL-10 and IFNγ but not IL-17. SFB treatment reduced the level of Enterobacteriaceae in the gut and provided superior resistance to intestinal and extraintestinal pathogens as tested in vitro. Overall, early gut colonization of SFB is imperative for the maturation of the gut immune system and the establishment of a homeostatic gut environment. Improving our understanding of gut immune maturation in food-producing animals is crucial for both human and animal health.IMPORTANCEIn commercial farms, newly hatched chicks may lack host-specific microbiota that help mature their gut immune system for lifelong health benefits. Here, introducing an avian segmented filamentous bacteria (SFB) to commercially sourced chickens orally at hatch accelerated SFB colonization of the ileum. Remarkably, SFB from layers were able to colonize broilers and enhance gut immune maturation, and this immunomodulation impacted the ability to increase intestinal and extraintestinal resistance to bacteria relevant to poultry and human health. With the antibiotic restrictions in animal production, strategies that will help mitigate infections are urgently needed. In summary, we developed a live prophylactic for newly hatched chicks to improve animal health and food safety. Due to the host specificity of SFB, our data highlight the importance of investigating the molecular mechanism of SFB interaction in their own host.

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来源期刊
mSphere
mSphere Immunology and Microbiology-Microbiology
CiteScore
8.50
自引率
2.10%
发文量
192
审稿时长
11 weeks
期刊介绍: mSphere™ is a multi-disciplinary open-access journal that will focus on rapid publication of fundamental contributions to our understanding of microbiology. Its scope will reflect the immense range of fields within the microbial sciences, creating new opportunities for researchers to share findings that are transforming our understanding of human health and disease, ecosystems, neuroscience, agriculture, energy production, climate change, evolution, biogeochemical cycling, and food and drug production. Submissions will be encouraged of all high-quality work that makes fundamental contributions to our understanding of microbiology. mSphere™ will provide streamlined decisions, while carrying on ASM''s tradition for rigorous peer review.
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