Changes in social environment impact primate gut microbiota composition.

IF 4.9 Q1 MICROBIOLOGY Animal microbiome Pub Date : 2024-11-13 DOI:10.1186/s42523-024-00355-y
Colleen S Pearce, Danielle Bukovsky, Katya Douchant, Abhay Katoch, Jill Greenlaw, Daniel J Gale, Joseph Y Nashed, Don Brien, Valerie A Kuhlmeier, Mark A Sabbagh, Gunnar Blohm, Fernanda G De Felice, Martin Pare, Douglas J Cook, Stephen H Scott, Douglas P Munoz, Calvin P Sjaarda, Anita Tusche, Prameet M Sheth, Andrew Winterborn, Susan Boehnke, Jason P Gallivan
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Abstract

Background: The gut microbiota (GM) has proven to be essential for both physical health and mental wellbeing, yet the forces that ultimately shape its composition remain opaque. One critical force known to affect the GM is the social environment. Prior work in humans and free-ranging non-human primates has shown that cohabitation and frequent social interaction can lead to changes in GM composition. However, it is difficult to assess the direction of causation in these studies, and interpretations are complicated by the influence of uncontrolled but correlated factors, such as shared diet.

Results: We performed a 15-month longitudinal investigation wherein we disentangled the impacts of diet and social living conditions on GM composition in a captive cohort of 13 male cynomolgus macaques. The animals were in single housing for the first 3 months of the study initially with a variable diet. After baseline data collection they were placed on a controlled diet for the remainder of the study. Following this diet shift the animals were moved to paired housing for 6 months, enabling enhanced social interaction, and then subsequently returned to single housing at the end of our study. This structured sequencing of diet and housing changes allowed us to assess their distinct impacts on GM composition. We found that the early dietary adjustments led to GM changes in both alpha and beta diversity, whereas changes in social living conditions only altered beta diversity. With respect to the latter, we found that two particular bacterial families - Lactobacillaceae and Clostridiaceae - demonstrated significant shifts in abundance during the transition from single housing to paired housing, which was distinct from the shifts we observed based on a change in diet. Conversely, we found that other bacteria previously associated with sociality were not altered based on changes in social living conditions but rather only by changes in diet.

Conclusions: Together, these findings decouple the influences that diet and social living have on GM composition and reconcile previous observations in the human and animal literatures. Moreover, the results indicate biological alterations of the gut that may, in part, mediate the relationship between sociality and wellbeing.

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社会环境的变化影响灵长类动物肠道微生物群的组成。
背景:肠道微生物群(GM)已被证明对身体健康和心理健康都至关重要,但最终影响其组成的力量仍不明确。已知影响肠道微生物群的一个关键因素是社会环境。之前在人类和自由活动的非人灵长类动物身上进行的研究表明,同居和频繁的社会交往会导致基因组的组成发生变化。然而,在这些研究中很难评估因果关系的方向,而且共同饮食等不受控制但相关的因素的影响也使解释变得复杂:结果:我们进行了一项为期 15 个月的纵向调查,在 13 只雄性猕猴的圈养群中,我们分离了饮食和社会生活条件对基因改造成分的影响。在研究的前 3 个月,这些动物被安置在单人饲养箱中,最初的饮食是可变的。收集基线数据后,在研究的剩余时间里,它们被置于受控饮食中。饮食改变后,动物被转移到配对饲养箱中饲养 6 个月,以加强社会交往,然后在研究结束时返回单人饲养箱。这种饮食和饲养方式变化的结构化排序使我们能够评估它们对基因改造成分的不同影响。我们发现,早期的饮食调整导致α和β多样性都发生了基因改造变化,而社会生活条件的变化只改变了β多样性。关于后者,我们发现在从单人饲养过渡到成对饲养期间,两个特殊的细菌科--乳酸菌科和梭状芽胞杆菌科--的丰度发生了显著变化,这与我们根据饮食变化观察到的变化截然不同。相反,我们发现以前与社会性相关的其他细菌并没有因为社会生活条件的改变而改变,而只是因为饮食的改变而改变:总之,这些发现将饮食和社会生活对基因组组成的影响分离开来,并调和了之前在人类和动物文献中的观察结果。此外,研究结果表明,肠道的生物变化可能在一定程度上介导了社会性与幸福感之间的关系。
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来源期刊
CiteScore
7.20
自引率
0.00%
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0
审稿时长
13 weeks
期刊最新文献
Resistomes from oxytetracycline-treated pigs are readily transferred to untreated pen mates. Industrial diet intervention modulates the interplay between gut microbiota and host in semi-stray dogs. Increasing the level of hemicelluloses in the lactation diet affects the faecal microbiota of sows and their piglets without affecting their performances. Single-strain probiotics enhance growth, anti-pathogen immunity, and resistance to Nocardia seriolae in grey mullet (Mugil cephalus) via gut microbiota modulation. Changes in social environment impact primate gut microbiota composition.
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