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在高碱胁迫下,补充膳食褪黑素可改善凡纳滨对虾的肠道健康和免疫功能。

Dietary Melatonin Supplementation Improved Intestinal Health and Immune Function of Pacific White Shrimp () Under High Alkali Stress.

作者信息

Li Yiming, Ye Yucong, Yuan Haojuan, Yao Zongli, Li Yan, Sun Zhen, Wei Yuxing, Zhao Yunlong, Lai Qifang

机构信息

East China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Shanghai 200090, China.

Key Laboratory of Inland Saline-Alkaline Aquaculture, Ministry of Agriculture and Rural Affairs, Shanghai 200090, China.

出版信息

Life (Basel). 2025 May 12;15(5):772. doi: 10.3390/life15050772.

DOI:10.3390/life15050772
PMID:40430199
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12113424/
Abstract

The intestinal tract serves as a critical immune regulator in aquatic species, maintaining homeostasis and environmental stress resistance. This study evaluates the protective effects of melatonin (MT) on () under acute alkaline stress through a comprehensive analysis of intestinal morphology, antioxidant responses, apoptosis regulation, and microbial community dynamics. A total of six groups of melatonin treatment groups were designed. After another 2 months of breeding, a 96 h acute alkalinity stress experiment was conducted. Experimental supplementation revealed dose-dependent outcomes: 82.7 mg/kg MT significantly improved survival rates without affecting growth parameters, while higher concentrations (329.2 mg/kg) induced elevated apoptosis ( < 0.05). Histological examination demonstrated mitigated intestinal structural damage in MT-treated groups compared to non-supplemented controls under alkaline stress. Antioxidant capacity initially increased and then stabilized at optimal MT doses (82.7-165.1 mg/kg), accompanied by enhanced immune marker expression ( < 0.05). Microbial profiling indicated MT-mediated enrichment of commensal bacteria associated with polysaccharide metabolism, energy utilization, and intestinal immunity. This study establishes that melatonin exerts dose-dependent protection in under alkaline stress, balancing antioxidant enhancement, apoptosis modulation, and microbiome regulation to fortify intestinal health, with 82.7-165.1 mg/kg identified as the optimal therapeutic range for mitigating environmental stress without compromising physiological homeostasis. The results of this study establish an empirical framework for optimizing MT application in crustacean aquaculture, particularly highlighting its role in maintaining intestinal barrier integrity and microbial homeostasis under alkaline environmental challenges.

摘要

肠道是水生生物中关键的免疫调节器官,维持体内平衡和环境应激抗性。本研究通过对肠道形态、抗氧化反应、细胞凋亡调控和微生物群落动态的综合分析,评估褪黑素(MT)在急性碱性应激下对()的保护作用。共设计了六组褪黑素处理组。再养殖2个月后,进行了96小时的急性碱度应激实验。实验性补充显示出剂量依赖性结果:82.7mg/kg的MT显著提高了存活率,且不影响生长参数,而较高浓度(329.2mg/kg)则诱导细胞凋亡增加(<0.05)。组织学检查表明,与碱性应激下未补充褪黑素的对照组相比,褪黑素处理组的肠道结构损伤减轻。抗氧化能力在最佳MT剂量(82.7 - 165.1mg/kg)下最初增加,然后稳定,同时免疫标志物表达增强(<0.05)。微生物分析表明,MT介导了与多糖代谢、能量利用和肠道免疫相关的共生细菌的富集。本研究表明,褪黑素在碱性应激下对()具有剂量依赖性保护作用,平衡抗氧化增强、细胞凋亡调节和微生物群调节以强化肠道健康,82.7 - 165.1mg/kg被确定为减轻环境应激而不损害生理稳态的最佳治疗范围。本研究结果为优化MT在甲壳类水产养殖中的应用建立了一个实证框架,特别强调了其在碱性环境挑战下维持肠道屏障完整性和微生物稳态中的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8811/12113424/d7966243a31b/life-15-00772-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8811/12113424/d7966243a31b/life-15-00772-g008.jpg
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