Department of Biological Sciences, North Carolina State University, Raleigh, NC, United States of America.
School of Sciences, Barton College, Wilson, NC, United States of America.
PLoS One. 2023 Oct 4;18(10):e0292431. doi: 10.1371/journal.pone.0292431. eCollection 2023.
Nutritional programming is the idea that early nutrient contributions can influence organismal structure or function and is documented in a variety of vertebrates, yet studies in fish are largely lacking. Tilapia are an important foodfish, with global production having increased rapidly since the 1990s. They exhibit high disease-resistance and grow well on formulated feeds which makes them an ideal aquaculture species, however incorporating high quality proteins into feeds can be costly. As feed constitutes 50-70% of total production costs in aquaculture, reducing protein content could curb these costs and increase revenue. Thus, we examined the effects of feeding Nile tilapia (O. niloticus) fry a restricted protein diet for the first 7-21 days on growth, gut microbial flora, and the intestinal transcriptome. Fish were fed either a 25% restricted or 48% control crude protein starter (ST) diet for up to 21 days and then switched to a 25% or 38% control crude protein growout (GO) diet. Fish fed a 25% ST diet for 14 days followed by a 38% GO diet had significantly higher lengths and weights and better feed efficiency than fish fed the control 48% ST and 38% GO diet after 56 days of culture. Growth of fry on the 25% ST, 7-day/38% GO and the 25% ST,7-day/25% GO diets did not differ from the those fed the control protein diets, while fish fed the 25% ST diet for 21 days had significantly lower growth and survival rates. We observed no significant differences in either alpha or beta diversity of the gut microbial flora between diets, however species richness (Shannon Index) was higher in fry fed the 25% protein ST diet regardless of the GO diet. Similarly, fish fed the 25% ST diet for 14 days followed by the 38% GO diet had minimal changes to the intestinal transcriptome relative to fish fed the control 48% ST and 38% GO diet. However, those fed 25% ST and GO diets for the entire 56 days exhibited substantial differences in the gut transcriptome from other groups showing gene expression profiles characteristic of detrimental changes to gut physiology, protein metabolism and immune function. Results suggest protein restriction for up to 14 days early in development leads to enhanced growth and feed efficiency with minimal effects on gut microbes or intestinal function. Protein restriction beyond this period appears detrimental to fish growth and health as underscored by expression of disease related genes and higher mortality rates.
营养编程是指早期营养物质的贡献可以影响生物体的结构或功能,这一观点在各种脊椎动物中都有记载,但鱼类方面的研究却很少。罗非鱼是一种重要的食用鱼,自 20 世纪 90 年代以来,其全球产量迅速增长。它们具有很高的抗病能力,并且在配方饲料中生长良好,这使它们成为理想的水产养殖品种,然而,将高质量的蛋白质纳入饲料可能会很昂贵。由于饲料占水产养殖总成本的 50-70%,降低蛋白质含量可以降低这些成本并增加收入。因此,我们研究了在尼罗罗非鱼(O. niloticus)鱼苗的前 7-21 天内,用限制蛋白质的饮食喂养它们对生长、肠道微生物菌群和肠道转录组的影响。鱼被喂食 25%限制蛋白或 48%对照粗蛋白起始(ST)饮食长达 21 天,然后切换到 25%或 38%对照粗蛋白生长(GO)饮食。与喂养对照 48% ST 和 38% GO 饮食 56 天后相比,用 25% ST 饮食喂养 14 天,然后用 38% GO 饮食喂养的鱼的长度和重量显著更高,饲料效率更好。用 25% ST、7 天/38% GO 和 25% ST、7 天/25% GO 饮食喂养的鱼苗的生长速度与对照蛋白饮食喂养的鱼苗没有差异,而用 25% ST 饮食喂养 21 天的鱼苗生长和存活率显著降低。我们观察到,无论 GO 饮食如何,饮食之间肠道微生物菌群的 alpha 或 beta 多样性都没有显著差异,然而,无论 GO 饮食如何,用 25%蛋白 ST 饮食喂养的鱼苗的物种丰富度(香农指数)更高。同样,用 25% ST 饮食喂养 14 天,然后用 38% GO 饮食喂养的鱼的肠道转录组相对于用对照 48% ST 和 38% GO 饮食喂养的鱼只有最小的变化。然而,用 25% ST 和 GO 饮食喂养 56 天的鱼的肠道转录组与其他组有显著差异,显示出与肠道生理学、蛋白质代谢和免疫功能的有害变化相关的基因表达谱。结果表明,在发育早期进行长达 14 天的蛋白质限制可提高生长速度和饲料效率,对肠道微生物或肠道功能的影响最小。超过这个时间限制的蛋白质限制对鱼的生长和健康是有害的,这突出表现在与疾病相关的基因表达和更高的死亡率上。
