Porphyra Polysaccharides Alleviated High-Carbohydrate Diet-Induced Growth Retardation, Lipid Deposition, Impairment of Immune and Antioxidant Functions, and Intestinal Morphology in Rabbitfish (Siganus canaliculatus)

IF 3 2区 农林科学 Q1 FISHERIES
Ruixin Li, Wenkai Li, Jiaying Xie, Zhixiao Liu, Yi Xiao, Douglas R. Tocher, Cuiying Chen, Fan Lin, Xiaojuan Liu, Dizhi Xie, Yucong Hong, Shuqi Wang
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Abstract

Porphyra polysaccharide (PPS), derived from marine red seaweeds of the Porphyra genus, has been reported to improve growth performance, lipid metabolism, and antioxidant capability in animals. The present study investigated the effects of PPS supplementation to a high-carbohydrate diet on growth performance, lipid metabolism, immunity, antioxidant capacity, intestinal morphology, and microbial composition in rabbitfish (Siganus canaliculatus). Rabbitfish were fed a basal starch diet (BSD, 15% starch) and high-starch diets (HSD, 25% starch) supplemented with varying levels of PPS (0%, 1.25%, 2.5%, and 5%) for 8 weeks. The results showed that HSD intake significantly decreased body weight and increased hepatosomatic index compared to rabbitfish fed BSD. But all dietary levels of PPS reversed these two indicators of fish fed HSD. In addition, the supplementation of 2.5% and 5% PPS significantly reduced the higher lipid contents in whole fish and abdominal muscle of fish fed HSD. Notably, 2.5% PPS reduced lipid droplets in the liver, possibly through the downregulation of genes associated with lipid synthesis and the upregulation of genes associated with lipid catabolism. Moreover, all levels of PPS supplementation decreased the higher serum alanine aminotransferase activity in fish fed HSD, indicating the alleviation of HSD-induced liver impairment. Additionally, PPS inclusion significantly increased the activity of serum lysozyme, superoxide dismutase, and catalase while decreasing serum malondialdehyde in fish fed HSD, suggesting improvements in immunity and antioxidant capacity. Furthermore, PPS inclusion mitigated damage to intestinal villi induced by HSD. Interestingly, 2.5% PPS increased the abundance of Bacteroidetes and Tenericutes while reducing the abundance of Proteobacteria and Spirochetes, indicating the reshaping of gut microbiota. In summary, dietary PPS alleviated the negative effects of HSD on growth performance, lipid metabolism, immunity, antioxidant capacity, and intestinal morphology and altered microbial composition in rabbitfish. This highlighted the beneficial effects of dietary PPS in fish and suggested it could contribute to the new strategies for treating metabolic syndrome and health impacts in aquatic animals.

Abstract Image

紫菜多糖缓解高碳水化合物膳食引起的兔鱼生长迟缓、脂质沉积、免疫和抗氧化功能损伤以及肠道形态学问题
据报道,卟啉多糖(PPS)提取自卟啉属海洋红藻,可改善动物的生长性能、脂质代谢和抗氧化能力。本研究调查了在高碳水化合物日粮中添加 PPS 对兔鱼(Siganus canaliculatus)生长性能、脂质代谢、免疫力、抗氧化能力、肠道形态和微生物组成的影响。用基础淀粉日粮(BSD,15%淀粉)和添加不同水平 PPS(0%、1.25%、2.5% 和 5%)的高淀粉日粮(HSD,25%淀粉)喂养兔鱼 8 周。结果表明,与饲喂 BSD 的兔鱼相比,饲喂 HSD 的兔鱼体重明显下降,肝体指数明显增加。但所有膳食水平的 PPS 都能逆转喂食 HSD 的鱼的这两项指标。此外,补充 2.5% 和 5%的 PPS 能明显降低喂食 HSD 的鱼类全鱼和腹肌中较高的脂质含量。值得注意的是,2.5% 的 PPS 可减少肝脏中的脂滴,这可能是通过下调与脂质合成相关的基因和上调与脂质分解相关的基因实现的。此外,所有水平的 PPS 都能降低喂食 HSD 的鱼类较高的血清丙氨酸氨基转移酶活性,这表明 HSD 引起的肝损伤得到了缓解。此外,添加 PPS 还能显著提高喂养 HSD 的鱼血清溶菌酶、超氧化物歧化酶和过氧化氢酶的活性,同时降低血清丙二醛的含量,这表明鱼的免疫力和抗氧化能力有所提高。此外,加入 PPS 可减轻 HSD 对肠绒毛的损伤。有趣的是,2.5% 的 PPS 增加了类杆菌和担子菌的丰度,同时降低了变形菌和螺旋体的丰度,这表明肠道微生物群正在重塑。总之,膳食 PPS 可减轻 HSD 对兔鱼生长性能、脂代谢、免疫力、抗氧化能力和肠道形态的负面影响,并改变微生物组成。这凸显了膳食 PPS 对鱼类的有益影响,并表明它有助于制定治疗代谢综合征和影响水生动物健康的新策略。
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来源期刊
Aquaculture Nutrition
Aquaculture Nutrition 农林科学-渔业
CiteScore
7.20
自引率
8.60%
发文量
131
审稿时长
3 months
期刊介绍: Aquaculture Nutrition is published on a bimonthly basis, providing a global perspective on the nutrition of all cultivated aquatic animals. Topics range from extensive aquaculture to laboratory studies of nutritional biochemistry and physiology. The Journal specifically seeks to improve our understanding of the nutrition of aquacultured species through the provision of an international forum for the presentation of reviews and original research papers. Aquaculture Nutrition publishes papers which strive to: increase basic knowledge of the nutrition of aquacultured species and elevate the standards of published aquaculture nutrition research. improve understanding of the relationships between nutrition and the environmental impact of aquaculture. increase understanding of the relationships between nutrition and processing, product quality, and the consumer. help aquaculturalists improve their management and understanding of the complex discipline of nutrition. help the aquaculture feed industry by providing a focus for relevant information, techniques, tools and concepts.
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