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局部作用-全球影响:轻度感染栉孔扇贝绦虫的金头鲷的 RNA 测序揭示了对凋亡、免疫和缺氧相关基因的影响。

Acting locally - affecting globally: RNA sequencing of gilthead sea bream with a mild Sparicotyle chrysophrii infection reveals effects on apoptosis, immune and hypoxia related genes.

机构信息

Fish Pathology Group, Institute of Aquaculture Torre de la Sal (IATS-CSIC), Ribera de Cabanes, Castellón, Spain.

Institute of Oceanography and Fisheries, Split, Croatia.

出版信息

BMC Genomics. 2019 Mar 11;20(1):200. doi: 10.1186/s12864-019-5581-9.

DOI:10.1186/s12864-019-5581-9
PMID:30866816
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6416957/
Abstract

BACKGROUND

Monogenean flatworms are the main fish ectoparasites inflicting serious economic losses in aquaculture. The polyopisthocotylean Sparicotyle chrysophrii parasitizes the gills of gilthead sea bream (GSB, Sparus aurata) causing anaemia, lamellae fusion and sloughing of epithelial cells, with the consequent hypoxia, emaciation, lethargy and mortality. Currently no preventive or curative measures against this disease exist and therefore information on the host-parasite interaction is crucial to find mitigation solutions for sparicotylosis. The knowledge about gene regulation in monogenean-host models mostly comes from freshwater monopysthocotyleans and almost nothing is known about polyopisthocotyleans. The current study aims to decipher the host response at local (gills) and systemic (spleen, liver) levels in farmed GSB with a mild natural S. chrysophrii infection by transcriptomic analysis.

RESULTS

Using Illumina RNA sequencing and transcriptomic analysis, a total of 2581 differentially expressed transcripts were identified in infected fish when compared to uninfected controls. Gill tissues in contact with the parasite (P gills) displayed regulation of fewer genes (700) than gill portions not in contact with the parasite (NP gills) (1235), most likely due to a local silencing effect of the parasite. The systemic reaction in the spleen was much higher than that at the parasite attachment site (local) (1240), and higher than in liver (334). NP gills displayed a strong enrichment of genes mainly related to immune response and apoptosis. Processes such as apoptosis, inflammation and cell proliferation dominated gills, whereas inhibition of apoptosis, autophagy, platelet activation, signalling and aggregation, and inflammasome were observed in spleen. Proteasome markers were increased in all tissues, whereas hypoxia-related genes were down-regulated in gills and spleen.

CONCLUSIONS

Contrasting forces seem to be acting at local and systemic levels. The splenic down-regulation could be part of a hypometabolic response, to counteract the hypoxia induced by the parasite damage to the gills and to concentrate the energy on defence and repair responses. Alternatively, it can be also interpreted as the often observed action of helminths to modify host immunity in its own interest. These results provide the first toolkit for future studies towards understanding and management of this parasitosis.

摘要

背景

单殖吸虫是造成水产养殖严重经济损失的主要鱼类外寄生虫。多盘科的 Sparicotyle chrysophrii 寄生在真鲷( Sparus aurata )的鳃上,导致贫血、鳃片融合和上皮细胞脱落,进而导致缺氧、消瘦、昏睡和死亡。目前尚无针对这种疾病的预防或治疗措施,因此宿主-寄生虫相互作用的信息对于寻找 Sparicotylosis 的缓解措施至关重要。关于单殖吸虫-宿主模型中的基因调控的知识主要来自淡水单盘科,而对于多盘科几乎一无所知。本研究旨在通过转录组分析,在轻度天然 S. chrysophrii 感染的养殖真鲷中,解析局部(鳃)和系统(脾脏、肝脏)水平的宿主反应。

结果

使用 Illumina RNA 测序和转录组分析,与未感染对照相比,感染鱼的 2581 个差异表达转录本被鉴定。与寄生虫接触的鳃组织(P 鳃)显示的基因调控较少(700 个),而与寄生虫不接触的鳃组织(NP 鳃)(1235 个)则较多,这很可能是寄生虫的局部沉默效应所致。脾脏的全身反应远高于寄生虫附着部位(局部)(1240 个),也高于肝脏(334 个)。NP 鳃显示出强烈的免疫反应和细胞凋亡相关基因富集。凋亡、炎症和细胞增殖等过程主导了鳃,而在脾脏中观察到凋亡抑制、自噬、血小板激活、信号转导和聚集以及炎症小体。所有组织的蛋白酶体标志物均增加,而缺氧相关基因在鳃和脾脏中下调。

结论

对比力量似乎在局部和系统水平上同时作用。脾脏的下调可能是低代谢反应的一部分,以对抗寄生虫对鳃造成的损伤引起的缺氧,并将能量集中在防御和修复反应上。或者,这也可以解释为寄生虫经常改变宿主免疫以符合自身利益的行为。这些结果为未来研究提供了第一个工具包,以了解和管理这种寄生虫病。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/98064adae4c1/12864_2019_5581_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/bd40d7f24714/12864_2019_5581_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/d173b8313038/12864_2019_5581_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/e0617e62a1cb/12864_2019_5581_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/ce14a17c477e/12864_2019_5581_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/e07cade9722f/12864_2019_5581_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/98064adae4c1/12864_2019_5581_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/bd40d7f24714/12864_2019_5581_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/d173b8313038/12864_2019_5581_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/e0617e62a1cb/12864_2019_5581_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/ce14a17c477e/12864_2019_5581_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/e07cade9722f/12864_2019_5581_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e405/6416957/98064adae4c1/12864_2019_5581_Fig6_HTML.jpg

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