苯乙胺是大菱鲆(schophthalmus maximus)的一种潜在密度胁迫信息素

IF 2.1 3区 农林科学 Q2 FISHERIES
Fishes Pub Date : 2023-10-11 DOI:10.3390/fishes8100506
Jiyuan Li, Yanfeng Wang, Teng Guo, Shihong Xu, Guang Gao, Feng Liu, Xiaoyang Guo, Yanduo Wu, Haixia Zhao, Jun Li
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引用次数: 0

摘要

信息素在调节鱼类的繁殖、聚集、危险识别和食物定位等行为中起着至关重要的作用。为了更好地了解密度变化对鱼类体内化学通讯的影响,本研究分析了不同放养密度下大菱鲆(Scophthalmus maximus)释放的代谢物。试验在低密度(LD: 3.01 kg/m2)、中密度(MD: 6.62 kg/m2)和高密度(HD: 10.84 kg/m2)下进行,为期15 d。采用高通量非靶向代谢组学(LC-MS/MS)技术鉴定不同密度大比目鱼释放到水生环境中的代谢物的变化。结果显示,与LD组相比,MD组和HD组分别有29和47种代谢物显著上调。其中,十六烯二酸、黄嘌呤、苯乙胺、脯氨酸和苯乙烯在MD vs LD、HD vs MD和HD vs LD中显著上调。OPLS-DA比对VIP图显示,苯乙胺是MD vs LD、HD vs MD和HD vs LD中最重要的共同代谢物。结果显示,HD组GH、GHR、IGF-1的表达明显降低,CRH、ACTH的表达明显升高。此外,与LD和MD组相比,HD组的血浆皮质醇、葡萄糖、甘油三酯和T3水平也最高。苯乙胺浓度与HPI轴呈正相关,与GH/IGF-1信号通路负相关。为了研究苯乙胺积累对大菱鲆的影响,建立了苯乙胺急性治疗实验。通过外源添加将其在水生环境中的浓度设定为0 (CON)、10−7 (LP)和10−5 (HP) mol/L,并在这些环境中暴露2天。苯乙胺处理组与密度处理组GH/IGF-1信号通路(GH、GHR、IGF-1)、HPI轴(CRH、ACTH)与血浆生理变化(皮质醇、葡萄糖、甘油三酯、T3)高度一致。因此,随着放养密度的增加,苯乙胺的积累可能是密度胁迫的潜在原因。苯乙胺作为一种信息素具有剂量依赖性和痕量效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phenethylamine Is a Potential Density Stress Pheromone in Turbot (Scophthalmus maximus)
Pheromones play a vital role in regulating fish behavior, including reproduction, aggregation, hazard recognition and food location. To gain a better understanding of chemical communication in fish produced by density changes, this study analyzed the metabolites released by turbot (Scophthalmus maximus) under different stocking densities. The experiment was conducted at low (LD: 3.01 kg/m2), medium (MD: 6.62 kg/m2) and high (HD: 10.84 kg/m2) densities for 15 days. High-throughput non-targeted metabolomics (LC-MS/MS) was used to identify variations in metabolites released into the aquatic environment by turbot at different densities. Results showed that 29 and 47 metabolites were significantly upregulated in the MD and HD groups, respectively, compared with the LD group. Among them, hexadecanedioic acid, xanthine, phenethylamine, proline and styrene were significantly upregulated in the MD vs. LD, HD vs. MD and HD vs. LD. The VIP diagram of OPLS-DA alignment showed that phenethylamine was the most important metabolite shared by MD vs. LD, HD vs. MD and HD vs. LD. Key gene changes in the GH/IGF-1 signaling pathway, HPI axis of turbot were studied using qRT-PCR for density treatment. The results demonstrated that the expression of GH, GHR and IGF-1 was significantly lower, while the expression of CRH and ACTH was higher in the HD group. Additionally, plasma levels of cortisol, glucose, triglycerides and T3 were also highest in the HD group compared with the LD and MD groups. Phenylethylamine concentration was positively correlated with the HPI axis and negatively correlated with the GH/IGF-1 signaling pathway. To investigate the impact of phenethylamine accumulation on turbot, an acute treatment experiment with phenethylamine was set up. Its concentration in the aquatic environment was set at 0 (CON), 10−7 (LP) and 10−5 (HP) mol/L via exogenous addition, and turbot were exposed to these environments for 2 days. There was a high degree of concordance between the GH/IGF-1 signaling pathway (GH, GHR, IGF-1), HPI axis (CRH, ACTH) and plasma physiological changes (cortisol, glucose, triglycerides, T3) in the phenethylamine-treated group and the density-treated group. Therefore, accumulation of phenethylamine with increasing stocking density may be a potential cause of density stress. Phenylethylamine has a dose-dependent and trace effect as a pheromone.
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Fishes
Fishes Multiple-
CiteScore
1.90
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311
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