Limosilactobacillus reuteri能改善新生小鼠的母体分离压力,并改变其成年后的行为。

IF 3 4区 医学 Q2 MICROBIOLOGY
Z M Saleh, B Okeugo, V R Venna, F W Blixt, V A Quaicoe, E S Park, S Giorgberidze, M Luo, C M Taylor, J M Rhoads, Y Liu
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引用次数: 0

摘要

小鼠的母体分离(MS)会导致行为缺陷和肠道微生物菌群失调,这些症状都会持续到成年期。低硅乳酸杆菌(Limosilactobacillus reuteri)DSM 17938能调节肠道微生物群、改变全身代谢物并促进免疫调节。为了评估 DSM 17938 对生化和行为应激相关变化的影响,从出生后第 7 天到第 20 天,每天将新生小鼠暴露于不可预知的 MS(MSU)中,并以 DSM 17938 或 PBS 作为胃内给药对照。在第 21 天评估体重、大脑中胆囊收缩素 (CCK)、神经胶质纤维酸性蛋白 (GFAP)、皮质酮和粪便微生物群的水平。对成年小鼠的行为测试进行了评估,包括Y-迷宫(YMT)、尾悬吊(TST)和开放场地(OFT)。MSU 导致小鼠出生后早期生长速度下降,而使用 DSM 17938 后生长速度有所改善。DSM 17938 可逆转 MSU 导致的 CCK 降低和脑皮质酮水平升高。GFAP水平随MSU的增加而升高,这表明脑CCK的降低可能是继发于神经元损伤。DSM 17938 治疗的后代在成年行为测试中表现出更好的认知功能和更少的焦虑行为。DSM 17398 纠正了与压力有关的肠道微生物菌群失调。总之,DSM 17938 对肠道微生物群的早期调节对新生儿因 MS 引起的应激相关生理和生化变化以及随后的成年行为都有好处。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Limosilactobacillus reuteri ameliorates maternal separation stress in newborn mice and alters subsequent adult behaviour.

Maternal separation (MS) in mice results in behavioral deficits and gut microbiota dysbiosis that all persist into adulthood. Limosilactobacillus reuteri DSM 17938 modulates gut microbiota, alters systemic metabolites, and facilitates immune regulation. To assess the effect of DSM 17938 on biochemical and behavioural stress-associated changes, newborn mice were exposed to unpredictable MS (MSU) daily from day 7 to day 20 of life, with intragastric administration of DSM 17938 or PBS as control. Body weight, brain levels of cholecystokinin (CCK), glial fibrillary acidic protein (GFAP), corticosterone, and stool microbiota were assessed at day 21. Behaviour tests including Y-maze (YMT), Tail Suspension (TST), and Open Field (OFT) were evaluated in adult mice. MSU resulted in a decrease in early postnatal growth, which improved with DSM 17938. Reduced CCK and increased corticosterone brain levels due to MSU were reversed by DSM 17938. GFAP levels increased with MSU, indicating that the decreased brain CCK was likely secondary to neuronal damage. DSM 17938 treated offspring demonstrated better cognitive function and less anxious behaviour in adult behaviour tests. DSM 17398 corrected stress related gut microbial dysbiosis. In conclusion, early life modulation of gut microbiota by DSM 17938 had beneficial effects on stress-associated physical and biochemical changes caused by MS in neonates and on subsequent adult behaviour.

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来源期刊
Beneficial microbes
Beneficial microbes MICROBIOLOGY-NUTRITION & DIETETICS
CiteScore
7.90
自引率
1.90%
发文量
53
审稿时长
>12 weeks
期刊介绍: Beneficial Microbes is a peer-reviewed scientific journal with a specific area of focus: the promotion of the science of microbes beneficial to the health and wellbeing of man and animal. The journal contains original research papers and critical reviews in all areas dealing with beneficial microbes in both the small and large intestine, together with opinions, a calendar of forthcoming beneficial microbes-related events and book reviews. The journal takes a multidisciplinary approach and focuses on a broad spectrum of issues, including safety aspects of pro- & prebiotics, regulatory aspects, mechanisms of action, health benefits for the host, optimal production processes, screening methods, (meta)genomics, proteomics and metabolomics, host and bacterial physiology, application, and role in health and disease in man and animal. Beneficial Microbes is intended to serve the needs of researchers and professionals from the scientific community and industry, as well as those of policy makers and regulators. The journal will have five major sections: * Food, nutrition and health * Animal nutrition * Processing and application * Regulatory & safety aspects * Medical & health applications In these sections, topics dealt with by Beneficial Microbes include: * Worldwide safety and regulatory issues * Human and animal nutrition and health effects * Latest discoveries in mechanistic studies and screening methods to unravel mode of action * Host physiology related to allergy, inflammation, obesity, etc. * Trends in application of (meta)genomics, proteomics and metabolomics * New developments in how processing optimizes pro- & prebiotics for application * Bacterial physiology related to health benefits
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