Zhi Lei Yao, Jia Yue Li, Xiao Wang, Hong Ju Chen, Shi-Jin Jiang, Yan Zhao, Xiang Shan Ji
{"title":"评估转基因tg(Hspa8b: GFP)尼罗罗非鱼在监测温度和振动影响下的应激和抗应激效果","authors":"Zhi Lei Yao, Jia Yue Li, Xiao Wang, Hong Ju Chen, Shi-Jin Jiang, Yan Zhao, Xiang Shan Ji","doi":"10.1007/s10499-024-01712-z","DOIUrl":null,"url":null,"abstract":"<div><p>During the cultivation and transportation process, fish are often exposed to many types of stressors such as heat or cold shock, vibration, etc. Stress may cause diverse stress-related health problems such as endocrine disruption, slow growth, immune dysfunction and even produce high mortality. Various anti-stress agents have been developed to alleviate stress. However, the deficiency of stress related animal models limited the development of anti-stress agents. Therefore, it is very necessary to establish an animal model for monitoring of stress in fish species. In this study, we generated a transgenic Nile tilapia (<i>Oreochromis niloticus</i>) line <i>Tg(Hspa8b: GFP)</i> with a <i>Hspa8b</i> promoter-driven Green Fluorescence Protein (GFP) expression. Next, we validated the efficiency and sensitivity of <i>Tg(Hspa8b: GFP)</i> model by monitoring the effects of stresses including heat shock, cold shock and vibration on GFP expression. The results showed the ubiquitous GFP expression was inducible in all examined tissues, including gill, brain, eye, heart, caudal fin, intestine and muscle of <i>Tg(Hspa8b: GFP)</i> transgenic fish under stressful conditions. The elevated green fluorescent signals were even found in the gill of <i>Tg(Hspa8b: GFP)</i> transgenic fish as early as 0.5 h after exposure to stress, and the strong green fluorescence can be continuously observed from 0.5 to 12 h after stress. There was a strong positive correlation between the GFP expression and the endogenous <i>Hspa8b</i> mRNA expression, which indicates that the <i>Tg(Hspa8b: GFP)</i> transgenic Nile tilapia can be used as an effective model to monitor stress in vivo. Furthermore, we evaluated anti-stress protective effects of anti-stress agents using <i>Tg(Hspa8b: GFP)</i> transgenic fish and identified the optimum anti-stress agent under different stressful conditions. We found that vitamin C and eugenol were the two preferred anti-stress agents to alleviate heat stress. MS-222 and tea polyphenols possesses the most significant anti-stress activity under cold stress. MS-222 and vitamin C were the two preferred anti-stress agents to alleviate vibration stress. This report would suggest new avenues for monitoring of fish stress responses in vivo and evaluating the anti-stress effects of related agents.</p></div>","PeriodicalId":8122,"journal":{"name":"Aquaculture International","volume":"33 1","pages":""},"PeriodicalIF":2.2000,"publicationDate":"2024-11-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Evaluation of a transgenic tg(Hspa8b: GFP) Nile tilapia for monitoring of stress and anti-stress effects of the influence of temperature and vibration\",\"authors\":\"Zhi Lei Yao, Jia Yue Li, Xiao Wang, Hong Ju Chen, Shi-Jin Jiang, Yan Zhao, Xiang Shan Ji\",\"doi\":\"10.1007/s10499-024-01712-z\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>During the cultivation and transportation process, fish are often exposed to many types of stressors such as heat or cold shock, vibration, etc. Stress may cause diverse stress-related health problems such as endocrine disruption, slow growth, immune dysfunction and even produce high mortality. Various anti-stress agents have been developed to alleviate stress. However, the deficiency of stress related animal models limited the development of anti-stress agents. Therefore, it is very necessary to establish an animal model for monitoring of stress in fish species. In this study, we generated a transgenic Nile tilapia (<i>Oreochromis niloticus</i>) line <i>Tg(Hspa8b: GFP)</i> with a <i>Hspa8b</i> promoter-driven Green Fluorescence Protein (GFP) expression. Next, we validated the efficiency and sensitivity of <i>Tg(Hspa8b: GFP)</i> model by monitoring the effects of stresses including heat shock, cold shock and vibration on GFP expression. The results showed the ubiquitous GFP expression was inducible in all examined tissues, including gill, brain, eye, heart, caudal fin, intestine and muscle of <i>Tg(Hspa8b: GFP)</i> transgenic fish under stressful conditions. The elevated green fluorescent signals were even found in the gill of <i>Tg(Hspa8b: GFP)</i> transgenic fish as early as 0.5 h after exposure to stress, and the strong green fluorescence can be continuously observed from 0.5 to 12 h after stress. There was a strong positive correlation between the GFP expression and the endogenous <i>Hspa8b</i> mRNA expression, which indicates that the <i>Tg(Hspa8b: GFP)</i> transgenic Nile tilapia can be used as an effective model to monitor stress in vivo. Furthermore, we evaluated anti-stress protective effects of anti-stress agents using <i>Tg(Hspa8b: GFP)</i> transgenic fish and identified the optimum anti-stress agent under different stressful conditions. We found that vitamin C and eugenol were the two preferred anti-stress agents to alleviate heat stress. MS-222 and tea polyphenols possesses the most significant anti-stress activity under cold stress. MS-222 and vitamin C were the two preferred anti-stress agents to alleviate vibration stress. 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Evaluation of a transgenic tg(Hspa8b: GFP) Nile tilapia for monitoring of stress and anti-stress effects of the influence of temperature and vibration
During the cultivation and transportation process, fish are often exposed to many types of stressors such as heat or cold shock, vibration, etc. Stress may cause diverse stress-related health problems such as endocrine disruption, slow growth, immune dysfunction and even produce high mortality. Various anti-stress agents have been developed to alleviate stress. However, the deficiency of stress related animal models limited the development of anti-stress agents. Therefore, it is very necessary to establish an animal model for monitoring of stress in fish species. In this study, we generated a transgenic Nile tilapia (Oreochromis niloticus) line Tg(Hspa8b: GFP) with a Hspa8b promoter-driven Green Fluorescence Protein (GFP) expression. Next, we validated the efficiency and sensitivity of Tg(Hspa8b: GFP) model by monitoring the effects of stresses including heat shock, cold shock and vibration on GFP expression. The results showed the ubiquitous GFP expression was inducible in all examined tissues, including gill, brain, eye, heart, caudal fin, intestine and muscle of Tg(Hspa8b: GFP) transgenic fish under stressful conditions. The elevated green fluorescent signals were even found in the gill of Tg(Hspa8b: GFP) transgenic fish as early as 0.5 h after exposure to stress, and the strong green fluorescence can be continuously observed from 0.5 to 12 h after stress. There was a strong positive correlation between the GFP expression and the endogenous Hspa8b mRNA expression, which indicates that the Tg(Hspa8b: GFP) transgenic Nile tilapia can be used as an effective model to monitor stress in vivo. Furthermore, we evaluated anti-stress protective effects of anti-stress agents using Tg(Hspa8b: GFP) transgenic fish and identified the optimum anti-stress agent under different stressful conditions. We found that vitamin C and eugenol were the two preferred anti-stress agents to alleviate heat stress. MS-222 and tea polyphenols possesses the most significant anti-stress activity under cold stress. MS-222 and vitamin C were the two preferred anti-stress agents to alleviate vibration stress. This report would suggest new avenues for monitoring of fish stress responses in vivo and evaluating the anti-stress effects of related agents.
期刊介绍:
Aquaculture International is an international journal publishing original research papers, short communications, technical notes and review papers on all aspects of aquaculture.
The Journal covers topics such as the biology, physiology, pathology and genetics of cultured fish, crustaceans, molluscs and plants, especially new species; water quality of supply systems, fluctuations in water quality within farms and the environmental impacts of aquacultural operations; nutrition, feeding and stocking practices, especially as they affect the health and growth rates of cultured species; sustainable production techniques; bioengineering studies on the design and management of offshore and land-based systems; the improvement of quality and marketing of farmed products; sociological and societal impacts of aquaculture, and more.
This is the official Journal of the European Aquaculture Society.
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