Llada Ignacio M, Lourenco Jeferson M, Dycus Madison M, Carpenter Jessica M, Jarrell Zachery R, Jones Dean P, Suen Garret, Hill Nicholas S, Filipov Nikolay M
Interdisciplinary Toxicology Program, University of Georgia, Athens, GA 30602, USA.
Department of Physiology and Pharmacology, University of Georgia, Athens, GA 30602, USA.
Toxins (Basel). 2025 May 17;17(5):251. doi: 10.3390/toxins17050251.
Fescue toxicosis (FT) is a mycotoxin-related disease caused by the ingestion of tall fescue, naturally infected with the ergot alkaloid (EA)-producing endophyte . Some grazing on endophyte-free (E-) or non-toxic (NT), commercial endophyte-infected pastures takes place in the US as well. Earlier, we found that grazing on toxic fescue with low levels of EAs during fall affects thermoregulation, behavior, and weight gain. Building on these findings, the current study aimed to investigate how the presence of low EA-producing E+ or NT endophytes can influence animal metabolome, microbiome, and, ultimately, overall animal health. Eighteen Angus steers were placed on NT, E+, and E- fescue pastures for 28 days. Urine, rumen fluid (RF), rumen solid (RS), and feces were collected pre-exposure, and on days 2, 7, 14, 21, and 28. An untargeted high-resolution metabolomics approach was used to analyze urine and RF, while 16S rRNA-based next-generation sequencing (NGS) was used to examine RF, RS, feces, and fescue plant microbiomes. While alpha- or beta-microbiota diversity across all analyzed matrices were unaffected, there were specific effects of E+ on the relative abundance of some taxa (i.e., ). Additionally, E+ grazing impacted aromatic amino acid metabolism in the urine and the metabolism of lipids in both the RF and urine. In both matrices, trace amine-related metabolic features differed markedly between E+ and the other groups. Compared to the endophyte-free group, endophyte presence, whether novel or toxic, influenced amino acid and carbohydrate metabolism, as well as unsaturated fatty acid biosynthesis. These findings suggest that low-EA-producing and non-toxic endophytes in fescue have more prominent effects on the metabolome than the microbiome, and this metabolome perturbation might be associated with decreased performance and reported physiological signs of FT.
牛尾草中毒(FT)是一种与霉菌毒素相关的疾病,由摄入天然感染了产生麦角生物碱(EA)的内生真菌的牛尾草引起。在美国,也有一些牛在不含内生真菌(E-)或无毒(NT)的商业化内生真菌感染牧场放牧。此前,我们发现秋季在EA含量低的有毒牛尾草上放牧会影响体温调节、行为和体重增加。基于这些发现,本研究旨在调查低产EA的E+或NT内生真菌的存在如何影响动物代谢组、微生物组,并最终影响动物整体健康。18头安格斯阉牛被放置在NT、E+和E-牛尾草牧场上28天。在暴露前以及第2、7、14、21和28天收集尿液、瘤胃液(RF)、瘤胃固体(RS)和粪便。采用非靶向高分辨率代谢组学方法分析尿液和RF,同时使用基于16S rRNA的下一代测序(NGS)来检测RF、RS、粪便和牛尾草植物微生物组。虽然所有分析基质中的α或β微生物群多样性未受影响,但E+对某些分类群的相对丰度有特定影响(即)。此外,E+放牧影响尿液中芳香族氨基酸代谢以及RF和尿液中的脂质代谢。在这两种基质中,E+与其他组之间与痕量胺相关的代谢特征存在显著差异。与无内生真菌组相比,内生真菌的存在,无论是新型还是有毒的,都会影响氨基酸和碳水化合物代谢以及不饱和脂肪酸生物合成。这些发现表明,牛尾草中低产EA和无毒的内生真菌对代谢组的影响比微生物组更显著,这种代谢组紊乱可能与性能下降和报道的FT生理体征有关。
