提示间歇性慢性腹泻猕猴乳糖不耐症的微生物组特征。

IF 4.9 Q1 MICROBIOLOGY Animal microbiome Pub Date : 2024-09-23 DOI:10.1186/s42523-024-00338-z
Annemiek Maaskant, Bas Voermans, Evgeni Levin, Marcus C de Goffau, Nicole Plomp, Frank Schuren, Edmond J Remarque, Antoine Smits, Jan A M Langermans, Jaco Bakker, Roy Montijn
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引用次数: 0

摘要

背景:慢性腹泻是圈养猕猴(Macaca mulatta)死亡和发病的常见原因。猕猴慢性腹泻的确切病因仍未确定。腹泻的发生常常与肠道微生物组中的菌群失调有关。对猕猴腹泻相关微生物组特征的研究主要是通过采集单一样本进行的。我们的分析基于纵向采集的慢性腹泻猕猴和临床健康猕猴粪便样本的元基因组组成,这些样本采集时间长达两年。我们的目的是研究猕猴肠道微生物组、腹泻的存在以及使用市售猴粮进行饮食干预之间的潜在关系:结果:间歇性慢性腹泻猕猴的微生物组特征显示,乳酸产生菌(如乳酸杆菌)显著增加,乳酸和琥珀酸发酵菌增加。令人吃惊的是,两种无乳糖饮食与较低的腹泻发病率有关:结论:乳糖存在时,乳酸杆菌大量繁殖,导致中间发酵产物生产过剩,很可能导致渗透压诱发腹泻,这表明这些动物存在乳糖不耐受机制。这项研究为研究间歇性慢性腹泻猕猴体内疑似微生物与乳糖不耐受的关系提供了新的视角。将机器学习与元基因组数据分析相结合,有望开发出有针对性的饮食干预和治疗策略,从而确保灵长类动物群体更加健康、更具复原力。
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Microbiome signature suggestive of lactose-intolerance in rhesus macaques (Macaca mulatta) with intermittent chronic diarrhea.

Background: Chronic diarrhea is a common cause of mortality and morbidity in captive rhesus macaques (Macaca mulatta). The exact etiology of chronic diarrhea in macaques remains unidentified. The occurrence of diarrhea is frequently linked to dysbiosis within the gut microbiome. Research into microbiome signatures correlated with diarrhea in macaques have predominantly been conducted with single sample collections. Our analysis was based on the metagenomic composition of longitudinally acquired fecal samples from rhesus macaques with chronic diarrhea and clinically healthy rhesus macaques that were obtained over the course of two years. We aimed to investigate potential relationships between the macaque gut microbiome, the presence of diarrhea and diet interventions with a selection of commercially available monkey diets.

Results: The microbiome signature of macaques with intermittent chronic diarrhea showed a significant increase in lactate producing bacteria e.g. lactobacilli, and an increase in fermenters of lactate and succinate. Strikingly, two lactose free diets were associated with a lower incidence of diarrhea.

Conclusion: A lactose intolerance mechanism is suggested in these animals by the bloom of Lactobacillus in the presence of lactose resulting in an overproduction of intermediate fermentation products likely led to osmotically induced diarrhea. This study provides new insights into suspected microbiome-lactose intolerance relationship in rhesus macaques with intermittent chronic diarrhea. The integration of machine learning with metagenomic data analysis holds potential for developing targeted dietary interventions and therapeutic strategies and therefore ensuring a healthier and more resilient primate population.

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