Sensitivity and adaptation of aquatic organisms to oscillapeptin J and [D-Asp3,(E)-Dhb7]microcystin-RR

Archiv Fur Hydrobiologie Pub Date : 2006-09-01 DOI:10.1127/0003-9136/2006/0167-0547

J. F. Blom, H. I. Baumann, G. Codd, F. Jüttner

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引用次数: 54

Abstract

Planktothrix rubescens is a frequently found cyanobacterium in deep stratified mesotrophic lakes, and metalimnetic mass developments as well as surface blooms are frequently observed in these waterbodies. P. rubescens contains toxins, ([D-Asp 3 ,(E)-Dhb 7 ]microcystin-RR and oscillapeptin J), numerous other cyclic peptides and depsipeptides which are potent inhibitors of digestive proteases, and so far unknown infochemicals (deterrents) that are bound to the cell surface and allow grazers to discriminate between cyanobacteria and more suitable food particles. Purified [D-Asp 3 ,(E)-Dhb 7 ]microcystin-RR was toxic to all tested aquatic grazers, but the sensitivity varied. The selective feeder Eudiaptomus showed mortality (LC 50 ) at 1.2 μM, while Daphnia sp., Chironomus riparius and Brachionus calyciflorus were less sensitive (21.1 μM, 52μM and 157μM). Toxicity of oscillapeptin J was only found for crustacean grazers (Eudiaptomus sp. LC 50 = 58 μM, Daphnia sp. LC 50 = 203 μM). Toxicity of this compound to mice, when administered intraperitoneally, was not observed. The data characterize oscillapeptin J as a specific crustacean toxin directed against this most "dangerous" group of grazers for planktonic cyanobacteria. Oscillapeptin J is a very potent inhibitor of trypsin (IC 50 = 20nM) and a moderate inhibitor of chymotrypsin (IC 50 = 2.8 μM). Adaptation to this toxin was found when the sensitivity of Daphnia sp., collected from a lake with annual mass developments of P. rubescens (Lake Hallwilersee) and a lake virtually free of this cyanobacterium (Lake Walensee), were compared with each other. Daphnia sp. from Lake Walensee was significantly more sensitive than Daphnia sp. which has experienced P. rubescens.

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水生生物对振荡apeptin J和[D-Asp3，(E)-Dhb7]微囊藻毒素rr的敏感性和适应性

在深层分层的中营养型湖泊中，常见的蓝藻是浮游红毛藻，在这些水体中经常观察到金属动力学的团块发育和表面华。rubbescens含有毒素，([D-Asp 3，(E)- dhb7]微囊藻毒素- rr和振动肽J)，许多其他环状肽和抑制肽，它们是消化蛋白酶的有效抑制剂，以及迄今为止未知的信息化学物质(威慑物)，它们与细胞表面结合，使食草动物能够区分蓝藻和更合适的食物颗粒。纯化的[D-Asp 3，(E)-Dhb 7]微囊藻毒素对所有水生食草动物均有毒性，但敏感性不同。在1.2 μM时，食虫虫的死亡率(LC 50)较低，而水蚤、河鼠和萼花臂尾虫的敏感性较低(分别为21.1 μM、52μM和157μM)。振荡apeptin J只对甲壳类食草动物(Eudiaptomus sp. LC 50 = 58 μM, Daphnia sp. LC 50 = 203 μM)有毒性。这种化合物对小鼠的毒性，当腹腔给药时，没有观察到。数据表明，振荡apeptin J是一种特殊的甲壳类毒素，针对的是浮游蓝藻这种最“危险”的食草动物。振荡apeptin J是一种非常有效的胰蛋白酶抑制剂(ic50 = 20nM)和中度凝乳胰蛋白酶抑制剂(ic50 = 2.8 μM)。对这种毒素的适应是在对水蚤的敏感性进行比较时发现的，水蚤是从每年大量发展的水藻的湖泊(Hallwilersee湖)和几乎没有这种蓝藻的湖泊(Walensee湖)中收集的。来自瓦伦湖的水蚤明显比经历过冬凌草的水蚤敏感。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Archiv Fur Hydrobiologie

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