大麻二酚对牛瘤胃微生物群体内氨基酸发酵的影响

Jourdan E. Lakes, Brittany E. Davis, M. Flythe
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摘要

氨基酸发酵菌是肉牛瘤胃中的浪费性生物,它们通过产生氨来清除日粮中的氨基酸态氮,然后通过肾脏排出体外。目前没有标签上的用途可用于控制这种微生物群,但标签外使用广谱抗菌素已显示出效果,这也导致了抗菌素耐药性的产生。在牛的日粮中添加植物源抗菌剂可能是一种值得考虑的替代方法。本研究试图调查大麻二酚(CBD)作为萜酚类抗菌剂的作用。在含有氨基酸底物的非选择性培养基中,从安格斯×荷斯坦母牛的瘤胃液中收获了活体细胞悬浮液。用五种浓度的 CBD(860 μg mL-1-0.086 μg mL-1)处理悬浮液并培养(24 小时),然后测量氨的产生以及每种基质和处理的细胞存活数。数据显示,在最高浓度的 CBD 作用下,氨的产生量减少了约 10-15 mM,而氨基酸发酵菌的存活数量变化可以忽略不计。从生物学或经济学角度来看,CBD 似乎不是一种可用于控制肉牛氨基酸发酵的萜酚类候选物质。
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Activity of Cannabidiol on Ex Vivo Amino Acid Fermentation by Bovine Rumen Microbiota
Amino-acid-fermenting bacteria are wasteful organisms within the rumens of beef cattle that remove dietary amino nitrogen by producing ammonia, which is then excreted renally. There are currently no on-label uses for the control of this microbial guild, but off-label use of broad-spectrum antimicrobials has shown efficacy, which contributes to antimicrobial resistance. Plant-derived antimicrobials supplemented into the diets of cattle may offer worthwhile alternatives. This study sought to investigate the role of cannabidiol (CBD) as a terpenophenolic antimicrobial. Ex vivo cell suspensions were harvested from the rumen fluid of Angus × Holstein steers in non-selective media with amino acid substrates. The suspensions were treated with five concentrations of CBD (860 μg mL−1–0.086 μg mL−1) and incubated (24 h), after which ammonia production and viable number of cells per substrate and treatment were measured. The data demonstrated a ~10–15 mM reduction in ammonia produced at the highest concentration of CBD and negligible changes in the viable number of amino-acid-fermenting bacteria. CBD does not appear to be a biologically or economically viable terpenophenolic candidate for the control of amino acid fermentation in beef cattle.
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