Growth Performance After Agouti-Signaling Protein 1 (Asip1) Overexpression in Transgenic Zebrafish.

IF 1.4 4区生物学 Q4 DEVELOPMENTAL BIOLOGY Zebrafish Pub Date : 2020-12-01 Epub Date: 2020-10-28 DOI:10.1089/zeb.2020.1932

Alejandra Godino-Gimeno, Elisa Sánchez, Raúl Guillot, Ana Rocha, Anna Rita Angotzi, Esther Leal, Josep Rotllant, José Miguel Cerdá-Reverter

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引用次数: 6

Abstract

The melanocortin system is a key structure in the regulation of energy balance. Overexpression of inverse agonists, agouti-signaling protein (ASIP), and agouti-related protein (AGRP) results in increased food intake, linear growth, and body weight. ASIP regulates dorsal-ventral pigment polarity through melanocortin 1 receptor (MC1R) and overexpression induces obesity in mice by binding to central MC4R. Asip1 overexpression in transgenic zebrafish (asip1-Tg) enhances growth, yet experiments show fish overexpressing Asip1 do not develop obesity even under severe feeding regimes. Asip1-Tg fish do not need to eat more to grow larger and faster; thus, increased food efficiency can be observed. In addition, asip1-Tg fish reared at high density are able to grow far more than wild-type (WT) fish reared at low density, although asip1-Tg fish seem to be more sensitive to crowding stress than WT fish, thus making the melanocortin system a target for sustainable aquaculture, especially as the U.S. Food and Drug Association has recently approved transgenic fish trading.

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agouti信号蛋白1 (Asip1)在转基因斑马鱼体内过表达后的生长性能

黑素皮质素系统是调节能量平衡的关键结构。逆激动剂、针刺信号蛋白(ASIP)和针刺相关蛋白(AGRP)的过度表达导致食物摄入量增加、线性生长和体重增加。ASIP通过黑素皮质素1受体(melanocortin 1 receptor, MC1R)调节背腹侧色素极性，过表达通过与中央MC4R结合诱导小鼠肥胖。Asip1在转基因斑马鱼中的过表达(Asip1 - tg)促进了生长，然而实验表明，即使在严格的喂养制度下，过表达Asip1的鱼也不会发生肥胖。Asip1-Tg鱼不需要吃得更多就能长得更大更快;因此，可以观察到食物效率的提高。此外，尽管asip1-Tg鱼似乎比野生型(WT)鱼对拥挤压力更敏感，但高密度饲养的asip1-Tg鱼的生长能力远远超过低密度饲养的野生型(WT)鱼，因此使黑素皮质素系统成为可持续水产养殖的目标，特别是美国食品和药物协会最近批准了转基因鱼的交易。

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来源期刊

Zebrafish DEVELOPMENTAL BIOLOGY-ZOOLOGY

CiteScore

3.60

自引率

5.00%

发文量

审稿时长

3 months

期刊介绍： Zebrafish is the only peer-reviewed journal dedicated to the central role of zebrafish and other aquarium species as models for the study of vertebrate development, evolution, toxicology, and human disease. Due to its prolific reproduction and the external development of the transparent embryo, the zebrafish is a prime model for genetic and developmental studies. While genetically more distant from humans, the vertebrate zebrafish nevertheless has comparable organs and tissues, such as heart, kidney, pancreas, bones, and cartilage. Zebrafish introduced the new section TechnoFish, which highlights these innovations for the general zebrafish community. TechnoFish features two types of articles: TechnoFish Previews: Important, generally useful technical advances or valuable transgenic lines TechnoFish Methods: Brief descriptions of new methods, reagents, or transgenic lines that will be of widespread use in the zebrafish community Zebrafish coverage includes: Comparative genomics and evolution Molecular/cellular mechanisms of cell growth Genetic analysis of embryogenesis and disease Toxicological and infectious disease models Models for neurological disorders and aging New methods, tools, and experimental approaches Zebrafish also includes research with other aquarium species such as medaka, Fugu, and Xiphophorus.