Integrated analysis of intestinal microbiota and transcriptome reveals that a coordinated interaction of the endocrine, immune system and gut microbiota response to heat stress in Litopenaeus vannamei

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Guowei Liao , Wanqi Wang , Jiaoping Yu , Jingping Li , Yumeng Yan , Haolin Liu , Bing Chen , Lanfen Fan
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Abstract

Due to the ongoing global warming, the risk of heatwaves in the oceans is continuously increasing while our understanding of the physiological response of Litopenaeus vannamei under extreme temperature conditions remains limited. Therefore, this study aimed to evaluate the physiological responses of L. vannamei under heat stress. Our results indicated that as temperature rose, the structure of intestinal and hepatopancreatic tissues was damaged sequentially. Activity of immune-related enzymes (acid phosphatase/alkaline phosphatase) initially increased before decreased, while antioxidant enzymes (superoxide dismutase and glutathione-S transferase) activity and malondialdehyde content increased with rising temperature. In addition, the total antioxidant capacity decreased with rising temperature. With the rising temperature, there was a significant increase in the expression of caspase-3, heat shock protein 70, lipopolysaccharide-induced tumor necrosis factor-α, transcriptional enhanced associate domain and yorkie in intestinal and hepatopancreatic tissues. Following heat stress, the number of potentially beneficial bacteria (Rhodobacteraceae and Gemmonbacter) increased which maintain balance and promote vitamin synthesis. Intestinal transcriptome analysis revealed 852 differentially expressed genes in the heat stress group compared with the control group. KEGG functional annotation results showed that the endocrine system was the most abundant in Organismal systems followed by the immune system. These results indicated that heat stress leads to tissue damage in shrimp, however the shrimp may respond to stress through a coordinated interaction strategy of the endocrine system, immune system and gut microbiota. This study revealed the response mechanism of L. vannamei to acute heat stress and potentially provided a theoretical foundation for future research on shrimp environmental adaptations.

对肠道微生物群和转录组的综合分析表明,万年青内分泌、免疫系统和肠道微生物群对热应激的反应是协调互动的
由于全球持续变暖,海洋热浪的风险不断增加,而我们对万年青在极端温度条件下的生理反应的了解仍然有限。因此,本研究旨在评估万年青在热应激下的生理反应。结果表明,随着温度的升高,肠道和肝胰腺组织的结构依次受到破坏。免疫相关酶(酸性磷酸酶/碱性磷酸酶)的活性先升高后降低,而抗氧化酶(超氧化物歧化酶和谷胱甘肽-S转移酶)活性和丙二醛含量则随着温度升高而升高。此外,总抗氧化能力随温度升高而降低。随着温度升高,肠道和肝胰腺组织中的 Caspase-3、热休克蛋白 70、脂多糖诱导的肿瘤坏死因子-α、转录增强关联域和约基的表达量显著增加。热应激后,潜在的有益细菌(Rhodobacteraceae 和 Gemmonbacter)数量增加,它们能维持平衡并促进维生素合成。肠道转录组分析显示,与对照组相比,热应激组中有 852 个不同表达基因。KEGG 功能注释结果显示,内分泌系统在有机系统中的表达量最大,其次是免疫系统。这些结果表明,热应激会导致对虾组织损伤,但对虾可能通过内分泌系统、免疫系统和肠道微生物群的协调互动策略来应对应激。该研究揭示了凡纳滨对虾对急性热应激的反应机制,为今后对虾环境适应性研究提供了理论基础。
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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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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