Differential production of prostaglandins and prostacyclins by liver and head kidney cells from Atlantic salmon challenged with arachidonic and eicosapentaenoic acids

Pedro Araujo , Marit Espe , Eva Lucena , Yang Yang , Elisabeth Holen
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引用次数: 2

Abstract

Polyunsaturated fatty acids such as arachidonic and eicosapentaenoic acids are the precursors of eicosanoid metabolites (e.g prostaglandins and prostacyclins) which regulate inflammatory and immune response processes in fish organs. The present research studies the differential production of PGI2, PGI3, PGE2 and PGE3 by primary liver and head kidney cells isolated from salmon and challenged with single or combined ARA and/or EPA. There was a significant increase in the production of PGE2 and PGI3 in both types of cells after exposure to single and combined fatty acids. Increased production of PGE3 was only detected in liver cells after exposure to ARA+EPA. The levels of PGI2 in liver cells were significantly increased after exposure to all the tested fatty acid systems, while the production levels in head kidney cells were only significant after exposure to ARA or ARA+EPA, but not to EPA, where the production was non-significantly decreased compared to the control cells. In general, liver cells synthetized higher prostaglandin levels than prostacyclins, and the opposite was observed in head kidney cells, which synthetized highly remarkable amounts of prostacyclin compared to liver cells. The overall production for both types of cells and various fatty acid systems were characterized by a high proportion of the omega-3 fatty acid metabolites (PGE3+PGI3) compared to the omega-6 counterpart (PGE2+PGI2). Some potential production mechanisms are proposed and comprehensively discussed. The results of the present research are the first to deliver the differential production of prostacyclins and prostaglandins by liver and head kidney cells from salmon, thereby paving the way for understanding the significance of these prostanoids in fish physiology and disease.

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经花生四烯酸和二十碳五烯酸刺激的大西洋鲑鱼肝脏和头肾细胞对前列腺素和前列腺环素的差异产生
多不饱和脂肪酸,如花生四烯酸和二十碳五烯酸是类二十碳酸代谢物(如前列腺素和前列环素)的前体,它们调节鱼类器官的炎症和免疫反应过程。本研究研究了从鲑鱼分离的肝脏和头肾细胞在单一或联合ARA和/或EPA刺激下产生PGI2、PGI3、PGE2和PGE3的差异。暴露于单一脂肪酸和组合脂肪酸后,两种类型的细胞中PGE2和PGI3的产生均显著增加。暴露于ARA+EPA后,仅在肝细胞中检测到PGE3的增加。暴露于所有测试的脂肪酸系统后,肝细胞中的PGI2水平显著增加,而头肾细胞中的PGI2水平仅在暴露于ARA或ARA+EPA后才显著增加,而暴露于EPA后则不显著,与对照细胞相比,EPA的产量没有显著下降。一般来说,肝细胞合成的前列腺素水平高于前列环素水平,而在头肾细胞中观察到的情况正好相反,与肝细胞相比,头肾细胞合成的前列环素数量非常显著。与omega-6代谢产物(PGE2+PGI2)相比,这两种类型的细胞和各种脂肪酸系统的总体生产都具有高比例的omega-3脂肪酸代谢产物(PGE3+PGI3)。提出了一些潜在的生产机制,并进行了全面的讨论。本研究的结果首次证实了鲑鱼肝脏和头部肾脏细胞产生前列腺素和前列腺素的差异,从而为理解这些前列腺素在鱼类生理和疾病中的重要性铺平了道路。
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