Insights into the DNA methylation of Portunus trituberculatus in response to Vibrio parahaemolyticus infection

IF 4.1 2区 农林科学 Q1 FISHERIES
Xianfa Zhou , Dongfang Sun , Junyang Guo , Jianjian Lv , Ping Liu , Baoquan Gao
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Abstract

Vibrio parahaemolyticus is the main pathogen causing acute hepatopancreatic necrotic disease in crustaceans. To elucidate the epigenetic regulatory mechanism of crustacean resistance to V. parahaemolyticus infection, we conducted artificial infection studies on Portunus trituberculatus. The results showed that the mortality rate reached the highest at 12 h of artificial infection, which was 23.69 %. At 72 h after V parahaemolyticus infection, the expression level of DNA demethylase (ten-eleven-translocation protein) Tet was significantly decreased, the expression of DNA methyltransferase Dnmt3B fluctuated significantly. Based on the differential expression levels of Tet and Dnmt3B. We depict for DNA methylation profiles of the whole genome of P. trituberculatus at single-base resolution by using whole-genome bisulfite sequencing (WGBS) on hemolymph tissues. The overall DNA methylation level was low at 2.16 % in P. trituberculatus hemolymph. A total of 2590 differentially methylated regions (DMRs) were identified, of which 1329 were hypermethylated and 1261 were hypomethylated, and 1389 genes were annotated in these DMRs. Differently methylated genes (DMGs) were significantly enriched in ribosomes (KO03010), protein kinases (KO01001), cell cycle (HSA04110), endocrine resistance (HSA01522) and FoxO signaling pathway (KO04068). Finally, we selected six differentially methylated genes for quantitative analysis. The results showed that DNA methylation not only has a negative regulatory effect on gene expression, but also has a positive regulatory effect. These results indicated that DNA methylation in the regulation of genes involved in immune responses contributes to the resistance of P. trituberculatus to V. parahaemolyticus, which is valuable for understanding how crustaceans regulate the innate immune system to defend against bacterial infections.
三疣梭子蟹 DNA 甲基化对副溶血性弧菌感染的影响。
副溶血性弧菌是引起甲壳类急性肝胰腺坏死性疾病的主要病原体。为了阐明甲壳动物对副溶血弧菌感染的抗性的表观遗传调控机制,我们对三疣梭子蟹进行了人工感染研究。结果表明,人工感染 12 h 时死亡率最高,为 23.69 %。副溶血弧菌感染72 h后,DNA去甲基化酶(十-十一-转位蛋白)Tet的表达水平显著下降,DNA甲基转移酶Dnmt3B的表达水平波动明显。根据 Tet 和 Dnmt3B 的不同表达水平。我们利用全基因组亚硫酸氢盐测序(WGBS)技术对三疣梭子蟹血淋巴组织进行了单碱基分辨率的DNA甲基化分析。三疣梭子蟹血淋巴中的 DNA 甲基化水平较低,仅为 2.16%。共鉴定出 2,590 个差异甲基化区域(DMRs),其中 1,329 个为高甲基化区域,1,261 个为低甲基化区域,在这些 DMRs 中注释了 1,389 个基因。不同甲基化基因(DMGs)在核糖体(KO03010)、蛋白激酶(KO01001)、细胞周期(HSA04110)、内分泌抵抗(HSA01522)和FoxO信号通路(KO04068)中明显富集。最后,我们选择了 6 个差异甲基化基因进行定量分析。结果表明,DNA甲基化不仅对基因表达有负向调控作用,而且还有正向调控作用。这些结果表明,DNA甲基化对参与免疫反应的基因的调控有助于三疣梭子蟹对副溶血性弧菌的抵抗力,这对了解甲壳类如何调控先天免疫系统以抵御细菌感染很有价值。
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来源期刊
Fish & shellfish immunology
Fish & shellfish immunology 农林科学-海洋与淡水生物学
CiteScore
7.50
自引率
19.10%
发文量
750
审稿时长
68 days
期刊介绍: Fish and Shellfish Immunology rapidly publishes high-quality, peer-refereed contributions in the expanding fields of fish and shellfish immunology. It presents studies on the basic mechanisms of both the specific and non-specific defense systems, the cells, tissues, and humoral factors involved, their dependence on environmental and intrinsic factors, response to pathogens, response to vaccination, and applied studies on the development of specific vaccines for use in the aquaculture industry.
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