蛋氨酸螯合锌通过整合 mTOR 信号和自噬途径促进幼年黄颡鱼的合成代谢。

Methionine-chelated Zn promotes anabolism by integrating mTOR signal and autophagy pathway in juvenile yellow catfish.

机构信息

Laboratory of Molecular Nutrition, Fishery College, Huazhong Agricultural University, Wuhan 430070, China.

Diabetes and Nutritional Sciences Division, School of Medicine, King's College London, London SE1 9NH, UK.

出版信息

J Trace Elem Med Biol. 2021 May;65:126732. doi: 10.1016/j.jtemb.2021.126732. Epub 2021 Feb 12.

DOI:10.1016/j.jtemb.2021.126732

PMID:33607355

Abstract

BACKGROUND

Amino acid-chelated zinc (Zn) can increase anabolism of animals. However, the underlying mechanisms are unclear. We aimed to examine how autophagy impact anabolism following a diet containing methionine-chelated Zn (ZnMet) compared with inorganic Zn (ZnSO).

METHODS

Yellow catfish (weight: 4.02 ± 0.08 g) were fed two diets containing ZnSO or ZnMet for 8 wk. The differences in transcriptional responses and corresponding biological profiles were compared between the livers of fish fed the two Zn sources of diets. Hepatocytes of yellow catfish were incubated for 48 h in medium containing ZnSO (10 μM ZnSO) or ZnMet (10 μM ZnMet) after 2 h pretreated with or without pathway inhibitors. Intracellular Zn, TG and protein contents, lipid droplet and autophagic vesicles were detected. Ultrastructural observation, enzymatic activities, qPCR assays, western blot and immunofluorescence analysis were conducted.

RESULTS

ZnMet up-regulated the expression of genes associated with anabolism and autophagy. The differentially expressed genes (DEG) analysis indicated that both mTOR and autophagy pathways were activated. ZnMet-induced activation of autophagy was mTOR-independent. In this process, forkhead box class O was deacetylated and activated, and induced autophagy, which provided substrates for energy generation.

CONCLUSIONS

ZnMet increased anabolism through integrating mTOR signal and autophagy pathway in yellow catfish. The present study unravels a novel mechanism for amino acid-chelated minerals improving anabolism.

摘要

背景

氨基酸螯合锌（Zn）可以增加动物的合成代谢。然而，其潜在机制尚不清楚。我们旨在研究与无机 Zn（ZnSO）相比，含蛋氨酸螯合 Zn（ZnMet）的饮食如何影响自噬后合成代谢。

方法

黄颡鱼（体重：4.02 ± 0.08 g）分别用含 ZnSO 或 ZnMet 的两种饲料喂养 8 周。比较了两种 Zn 源喂养的鱼肝脏之间转录反应和相应生物谱的差异。用含 ZnSO（10 μM ZnSO）或 ZnMet（10 μM ZnMet）的培养基孵育黄颡鱼肝细胞 48 h，孵育前用或不用通路抑制剂预处理 2 h。检测细胞内 Zn、TG 和蛋白质含量、脂滴和自噬小泡。进行超微结构观察、酶活性、qPCR 检测、western blot 和免疫荧光分析。

结果

ZnMet 上调了与合成代谢和自噬相关的基因表达。差异表达基因（DEG）分析表明，mTOR 和自噬途径均被激活。ZnMet 诱导的自噬激活与 mTOR 无关。在这个过程中，叉头框 O 去乙酰化并被激活，诱导自噬，为能量生成提供底物。

结论

ZnMet 通过整合 mTOR 信号和黄颡鱼自噬途径增加了合成代谢。本研究揭示了氨基酸螯合矿物质改善合成代谢的新机制。

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蛋氨酸螯合锌通过整合 mTOR 信号和自噬途径促进幼年黄颡鱼的合成代谢。

Methionine-chelated Zn promotes anabolism by integrating mTOR signal and autophagy pathway in juvenile yellow catfish.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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