异养系统是否影响凡纳滨对虾的细胞免疫反应?体外吞噬指标及超氧阴离子生成比较

IF 2.2 Q2 FISHERIES
Renata S. Iunes , Paola C. Branco , Leandro N. Pressinotti , Rodrigo A.P.de L.F. de Carvalho , José Roberto M.C. da Silva
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引用次数: 2

摘要

水产养殖产量在过去几十年中有所增加,甲壳类产量占总产量的9.8%。然而,渔业和水产养殖部门提出了若干挑战,例如超出生物可持续性的鱼类资源捕捞、动物疾病、生物安全和环境影响。重要的是要用健康的动物来提高虾的产量,避免对环境的影响,例如使用异养饲养系统。众所周知,异养系统可以刺激免疫基因的激活,但它如何影响虾的免疫系统尚不清楚。为了评估异养系统是否会影响对虾的细胞免疫反应,我们在异养和清水系统中饲养凡纳滨对虾。在60、120和180 d后观察细胞免疫应答参数,如总血细胞计数和差异血细胞计数、吞噬指数和超氧阴离子的产生。60天后,清水系统饲养的对虾总血细胞计数较高,120天后异养系统饲养的对虾总血细胞计数较高。180 d后无显著差异。透明细胞、颗粒细胞和半颗粒细胞表现出相似的行为,在异养系统中培养120天后达到峰值。到第60天,异养系统的吞噬能力更高,而第120天和第180天没有发现差异。在吞噬指数和超氧阴离子产生方面没有发现差异。异养系统可以影响虾的总和差异血细胞计数和吞噬能力,这取决于它们在该系统中维持的时间。然而,在本文评估的时间点上,吞噬指数和超氧阴离子的产生不受异养系统的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Does the heterotrophic system influence the cellular immune response of Litopenaeus vannamei shrimp? In vitro phagocytosis indices and superoxide anion production comparisons

Aquaculture production has increased in the last decades, with crustacean production contributing with 9.8% of the total production. However, fisheries and aquaculture sectors present several challenges, such as fish stocks fished beyond biological sustainability, animal diseases, biosecurity, and environmental impact. It is important to improve shrimp production with healthy animals, avoiding environmental impacts, e.g. with the use of heterotrophic rearing system. It is known that the heterotrophic system can stimulate the activation of immune genes, but how it affects the shrimp immune system is unknown. To assess if a heterotrophic system influences the cellular immune response in shrimp, Litopenaeus vannamei shrimp were reared in heterotrophic and clear water systems. Cellular immune response parameters such as total and differential hemocyte counts, phagocytosis indices and the production of the superoxide anion were evaluated after 60, 120 and 180 days. After 60 days, total haemocyte counts were higher in shrimps reared in the clear water system, while after 120 days it was higher in shrimps reared in the heterotrophic system. No significant difference was observed after 180 days. Hyaline, granular and semi-granular cells showed similar behavior, peaking after 120 days in the heterotrophic system. By the 60th day, phagocytic capacity was higher in the heterotrophic system, while no differences were found for the 120th and 180th day. No differences were detected concerning the phagocytic index or superoxide anion production. The heterotrophic system can affect total and differential shrimp haemocyte counts and phagocytic capacity, depending on the period of time they were maintained in this system. However, the phagocytic index and superoxide anion production are not affected by the heterotrophic system at the time points evaluated herein.

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