Booman Marije, Xu Qingheng, Rise Matthew L
Department of Ocean Sciences, Memorial University of Newfoundland, St. John's, NL A1C 5S7 Canada.
Fish Shellfish Immunol. 2014 Nov;41(1):52-63. doi: 10.1016/j.fsi.2014.05.017. Epub 2014 May 27.
To improve sustainability of aquaculture, especially for carnivorous species like Atlantic cod, replacement of fish oil-based diets with vegetable oil-based diets has been studied. The use of vegetable oil in fish feeds can significantly change the fatty acid composition of fish tissues, and given the importance of fatty acids in inflammation and immunity, this change could potentially impact the immune response and health of the fish. The oilseed Camelina sativa is a promising source for this vegetable oil, because of the high oil content of its seeds (40%), a higher n-3 fatty acid content than most other oilseeds, and a high amount of γ-tocopherol. This study aims to investigate the effect of the replacement of dietary fish oil with oil from Camelina sativa on the immune response of Atlantic cod, as measured by the gene expression in spleen. Juvenile cod were fed on a fish oil-based diet (FO) or one of two diets in which camelina oil replaced 40% or 80% of fish oil (40CO and 80CO respectively) for 67 days, after which they were injected with either the viral mimic polyriboinosinic polyribocytidylic acid (pIC), or phosphate-buffered saline (PBS) as a control. Microarray analysis was used to determine the effect of the diet on the basal spleen transcriptome (pre-injection), and on the response to pIC (24 h post-injection). No marked differences in the spleen transcriptome were found between the three diets, either before or after injection with pIC. All fish, regardless of diet, showed a strong anti-viral response 24 h after pIC injection, with more than 500 genes having a significant difference of expression of 2-fold or higher compared to the PBS-injected fish for the FO, 40CO and 80CO diets. Gene Ontology annotation analysis of the three pIC-responsive gene lists indicated they were highly similar, and that the term 'immune system process' was significantly enriched in the pIC-responsive gene lists for all three diets. QPCR analysis for 5 genes with a known function in the anti-viral innate immune response (LGP2, STAT1, IRF1, ISG15 and viperin) showed modestly (smaller than 2-fold) up-regulated basal expression of LGP2, IRF1 and STAT1 in fish fed 40CO compared to the other diets. After pIC injection, all 5 genes were significantly and strongly up-regulated in pIC-injected fish compared to PBS-injected fish, but no significant differences were found between any of the diets. In conclusion, replacement of up to 80% of fish oil with camelina oil in Atlantic cod diets does not have a strong effect on basal spleen gene expression. Atlantic cod fed on camelina oil-containing diets are capable of mounting a strong anti-viral immune response, which is comparable to that in cod fed with a fish oil diet.
为提高水产养殖的可持续性,尤其是针对像大西洋鳕鱼这样的肉食性鱼类,人们已对用植物油基饲料替代鱼油基饲料进行了研究。在鱼饲料中使用植物油会显著改变鱼体组织的脂肪酸组成,鉴于脂肪酸在炎症和免疫方面的重要性,这种变化可能会影响鱼的免疫反应和健康状况。油用亚麻荠是这种植物油的一个有前景的来源,因为其种子含油量高(40%),n-3脂肪酸含量比大多数其他油籽高,且富含γ-生育酚。本研究旨在调查用亚麻荠油替代饲料中的鱼油对大西洋鳕鱼免疫反应的影响,通过脾脏中的基因表达来衡量。将幼鳕鱼投喂以鱼油为基础的饲料(FO)或两种用亚麻荠油分别替代40%或80%鱼油的饲料(分别为40CO和80CO)67天,之后给它们注射病毒模拟物聚肌苷酸-聚胞苷酸(pIC)或作为对照的磷酸盐缓冲盐水(PBS)。利用微阵列分析来确定饲料对基础脾脏转录组(注射前)以及对pIC的反应(注射后24小时)的影响。在注射pIC前后,三种饲料之间在脾脏转录组方面未发现明显差异。所有鱼,无论饲料如何,在注射pIC后24小时均表现出强烈的抗病毒反应,与注射PBS的鱼相比,对于FO、40CO和80CO饲料,有超过500个基因的表达有显著差异,差异倍数为2倍或更高。对三个pIC反应基因列表进行基因本体注释分析表明它们高度相似,并且“免疫系统过程”这一术语在所有三种饲料的pIC反应基因列表中均显著富集。对5个在抗病毒先天免疫反应中具有已知功能的基因(LGP2、STAT1、IRF1、ISG15和viperin)进行定量PCR分析表明,与其他饲料相比,投喂40CO饲料的鱼中LGP2、IRF1和STAT1的基础表达有适度上调(小于2倍)。注射pIC后,与注射PBS的鱼相比,所有5个基因在注射pIC的鱼中均显著且强烈上调,但在任何饲料之间未发现显著差异。总之,在大西洋鳕鱼饲料中用亚麻荠油替代高达80%的鱼油对基础脾脏基因表达没有强烈影响。投喂含亚麻荠油饲料的大西洋鳕鱼能够产生强烈的抗病毒免疫反应,这与投喂鱼油饲料的鳕鱼相当。
