Climate change can impair bacterial pathogen defences in sablefish via hypoxia-mediated effects on adaptive immunity

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-21 DOI:10.1016/j.dci.2024.105161
Robine H.J. Leeuwis , Jennifer R. Hall , Fábio S. Zanuzzo , Nicole Smith , Kathy A. Clow , Surendra Kumar , Ignacio Vasquez , Frederick W. Goetz , Stewart C. Johnson , Matthew L. Rise , Javier Santander , A. Kurt Gamperl
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Abstract

Low-oxygen levels (hypoxia) in aquatic habitats are becoming more common because of global warming and eutrophication. However, the effects on the health/disease status of fishes, the world's largest group of vertebrates, are unclear. Therefore, we assessed how long-term hypoxia affected the immune function of sablefish, an ecologically and economically important North Pacific species, including the response to a formalin-killed Aeromonas salmonicida bacterin. Sablefish were held at normoxia or hypoxia (100% or 40% air saturated seawater, respectively) for 6–16 weeks, while we measured a diverse array of immunological traits. Given that the sablefish is a non-model organism, this involved the development of a species-specific methodological toolbox comprised of qPCR primers for 16 key immune genes, assays for blood antibacterial defences, the assessment of blood immunoglobulin (IgM) levels with ELISA, and flow cytometry and confocal microscopy techniques. We show that innate immune parameters were typically elevated in response to the bacterial antigens, but were not substantially affected by hypoxia. In contrast, hypoxia completely prevented the ∼1.5-fold increase in blood IgM level that was observed under normoxic conditions following bacterin exposure, implying a serious impairment of adaptive immunity. Since the sablefish is naturally hypoxia tolerant, our results demonstrate that climate change-related deoxygenation may be a serious threat to the immune competency of fishes.

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气候变化可通过缺氧对适应性免疫的影响,损害黑貂鱼的细菌病原体防御能力。
由于全球变暖和富营养化,水生生境中的低氧水平(缺氧)越来越普遍。然而,鱼类作为世界上最大的脊椎动物群体,其健康/疾病状况受到的影响尚不清楚。因此,我们评估了长期缺氧如何影响黑貂鱼(一种具有重要生态和经济价值的北太平洋鱼类)的免疫功能,包括对福尔马林杀死的沙门氏菌(Aeromonas salmonicida)细菌的反应。黑貂鱼在常氧或低氧(分别为 100% 或 40% 的空气饱和海水)环境中存活 6-16 周,我们测量了一系列不同的免疫特征。鉴于黑貂鱼是非模式生物,这就需要开发一个物种特异性方法工具箱,其中包括 16 个关键免疫基因的 qPCR 引物、血液抗菌防御能力检测、用 ELISA 评估血液免疫球蛋白 (IgM) 水平以及流式细胞术和共聚焦显微镜技术。我们的研究表明,先天性免疫参数通常会因细菌抗原而升高,但缺氧并不会对其产生实质性影响。相反,缺氧完全阻止了在正常缺氧条件下观察到的暴露于细菌素后血液 IgM 水平的 1.5 倍增长,这意味着适应性免疫受到了严重损害。由于黑貂鱼天生耐缺氧,我们的研究结果表明,与气候变化相关的缺氧可能会严重威胁鱼类的免疫能力。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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