Threonine supplementation stimulates immune, antioxidant and liver functions of largemouth bass, Micropterus salmoides

IF 2.5 2区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Animal Feed Science and Technology Pub Date : 2024-08-14 DOI:10.1016/j.anifeedsci.2024.116087

Mohammad Mizanur Rahman , Hang Yang , Xiaoqin Li , SM Sharifuzzaman , Abdullateef Yusuf , Wenxiang Yao , Pinxian Yang , Xiangjun Leng

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Abstract

Threonine is an essential amino acid required in the diets for regular growth of fishes, but information is inadequate regarding the effects of threonine on immunity and health status of many aquaculture species. In the present study, a total of 360 juvenile largemouth bass, Micropterus salmoides (19.0 ± 0.1 g) were divided into six experimental groups, and fed diets supplemented with varying levels of crystalline L-threonine at 0 g kg⁻¹ (control), 2.5 g kg⁻¹ (Thr-2.5), 5.0 g kg⁻¹ (Thr-5.0), 7.5 g kg⁻¹ (Thr-7.5), 10.0 g kg⁻¹ (Thr-10.0) and 12.5 g kg⁻¹ (Thr-12.5) for eight weeks. The results revealed that white blood cell count (P = 0.024) and albumin content (P = 0.006) in fish were significantly modulated by the dietary threonine, with the highest levels recorded in fish fed diets Thr-5.0 and Thr-12.5, respectively. White blood cell increased with dietary threonine levels up to Thr-5.0, then decreased thereafter. The other hematological variables such as red blood cell (P = 0.571), hemoglobin (P = 0.259), hematocrit (P = 0.985), mean corpuscular volume (P = 0.631), mean corpuscular hemoglobin (P = 0.280) and mean corpuscular hemoglobin concentration (P = 0.691) remained unchanged as compared to the control group. Serum lysozyme increased (P = 0.000) with increasing levels of threonine up to 5.0 g kg⁻¹. Fish receiving diet Thr-2.5 had relatively higher (P = 0.000) immunoglobulin M and the level decreased when fed with increasing levels of threonine. The activities of superoxide dismutase (P = 0.008) and malondialdehyde (P = 0.005) were elevated at 10.0 g kg⁻¹ and 12.5 g kg⁻¹ supplementation levels, respectively. Moreover, diets Thr-5.0 and Thr-10.0 induced lower serum alanine aminotransferase (P = 0.011) and aspartate aminotransferase activities (P = 0.000) in fish. These results suggest that threonine supplementation led to a positive effect on the hematology, humoral immunity, antioxidant capacity and liver function enzyme activities of economically important largemouth bass. Therefore, threonine has a clear role in fish nutrition and is important in formulating nutritionally balanced feeds.

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补充苏氨酸可刺激大口鲈鱼的免疫、抗氧化和肝功能

苏氨酸是鱼类正常生长所需的一种必需氨基酸，但有关苏氨酸对许多水产养殖物种的免疫力和健康状况的影响的信息尚不充分。本研究将 360 尾大口鲈幼鱼（19.0 ± 0.1 克）分为 6 个实验组，分别投喂添加了 0 克/千克（对照组）、2.5 g kg-1 (Thr-2.5)、5.0 g kg-1 (Thr-5.0)、7.5 g kg-1 (Thr-7.5)、10.0 g kg-1 (Thr-10.0) 和 12.5 g kg-1 (Thr-12.5)，连续饲喂八周。结果显示，鱼体内的白细胞计数（P = 0.024）和白蛋白含量（P = 0.006）明显受日粮苏氨酸的影响，日粮 Thr-5.0 和 Thr-12.5 中的白细胞计数和白蛋白含量最高。白细胞随着日粮苏氨酸水平的增加而增加，最高达 Thr-5.0，随后下降。与对照组相比，其他血液学变量如红细胞（P = 0.571）、血红蛋白（P = 0.259）、血细胞比容（P = 0.985）、平均血球容积（P = 0.631）、平均血球血红蛋白（P = 0.280）和平均血球血红蛋白浓度（P = 0.691）保持不变。血清溶菌酶随着苏氨酸含量的增加而增加（P = 0.000），最高达 5.0 克/千克。摄入 Thr-2.5 日粮的鱼的免疫球蛋白 M 含量相对较高 (P = 0.000)，随着苏氨酸含量的增加，免疫球蛋白 M 含量下降。超氧化物歧化酶（P = 0.008）和丙二醛（P = 0.005）的活性在 10.0 g kg-1 和 12.5 g kg-1 的添加水平下分别升高。此外，日粮 Thr-5.0 和 Thr-10.0 可降低鱼血清丙氨酸氨基转移酶（P = 0.011）和天冬氨酸氨基转移酶（P = 0.000）的活性。这些结果表明，补充苏氨酸会对具有重要经济价值的大口鲈鱼的血液学、体液免疫、抗氧化能力和肝功能酶活性产生积极影响。因此，苏氨酸在鱼类营养中具有明显的作用，在配制营养均衡的饲料中非常重要。

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文献相关原料

公司名称	产品信息	其他信息	采购帮参考价格
上海源叶	L-threonine	≥99%	￥10.00~￥320298.50
上海源叶	L-glutamic acid		￥12.00~￥17653.70

来源期刊

Animal Feed Science and Technology 农林科学-奶制品与动物科学

CiteScore

6.00

自引率

6.20%

发文量

266

审稿时长

3 months

期刊介绍： Animal Feed Science and Technology is a unique journal publishing scientific papers of international interest focusing on animal feeds and their feeding. Papers describing research on feed for ruminants and non-ruminants, including poultry, horses, companion animals and aquatic animals, are welcome. The journal covers the following areas: Nutritive value of feeds (e.g., assessment, improvement) Methods of conserving and processing feeds that affect their nutritional value Agronomic and climatic factors influencing the nutritive value of feeds Utilization of feeds and the improvement of such Metabolic, production, reproduction and health responses, as well as potential environmental impacts, of diet inputs and feed technologies (e.g., feeds, feed additives, feed components, mycotoxins) Mathematical models relating directly to animal-feed interactions Analytical and experimental methods for feed evaluation Environmental impacts of feed technologies in animal production.