Pufferfish gasdermin Ea is a significant player in the defense against bacterial pathogens.

IF 5.8 2区 生物学 Q1 MARINE & FRESHWATER BIOLOGY
Marine Life Science & Technology Pub Date : 2024-06-28 eCollection Date: 2024-08-01 DOI:10.1007/s42995-024-00237-x
Hang Xu, Kunpeng Qin, Kangwei Hao, Zihao Yuan, Li Sun
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引用次数: 0

Abstract

Gasdermins (GSDMs) are proteins cleaved by caspase (CASP) to trigger pyroptosis. In teleosts, pyroptosis is mediated by gasdermin E (GSDME). The Pufferfish, Takifugu rubripes, possesses two GSDME orthologs: named TrGSDMEa and TrGSDMEb. TrGSDMEa is cleaved by CASP3/7 to liberate the N-terminal (NT) domain that can trigger pyroptosis in mammalian cells. However, the biological function of TrGSDMEa in pufferfish is unknown, and TrGSDMEb is poorly studied. We found that TrGSDMEb was cleaved by CASP1/3/6/7/8, but the resulting NT domain, despite its similarity to TrGSDMEa-NT domain in sequence and structure, failed to induce pyroptosis. TrGSDMEa and TrGSDMEb exhibited similar expression patterns in pufferfish under normal physiological conditions but were up- and downregulated, respectively, in expression during Vibrio harveyi and Edwardsiella tarda infection. Bacterial infection induced the activation of TrGSDMEa and CASP3/7 in pufferfish cells, resulting in pyroptosis accompanied with IL-1β production and maturation. Inhibition of TrGSDMEa-mediated pyroptosis via TrCASP3/7 reduced the death of pufferfish cells and augmented bacterial dissemination in fish tissues. Structure-oriented mutagenesis identified 16 conserved residues in teleost GSDMEa that were required for the pore formation or auto-inhibition of GSDMEa. This study illustrates the role of GSDMEa-mediated pyroptosis in teleost defense against bacterial pathogens and provides new insights into the structure-based function of vertebrate GSDME.

Supplementary information: The online version contains supplementary material available at 10.1007/s42995-024-00237-x.

河豚气敏素 Ea 在抵御细菌病原体方面发挥着重要作用。
gasdermins(GSDMs)是一种被Caspase(CASP)裂解的蛋白质,可触发热变态反应。在长尾目动物中,热变态是由气敏素 E(GSDME)介导的。河豚(Takifugu rubripes)拥有两个 GSDME 同源物:TrGSDMEa 和 TrGSDMEb。TrGSDMEa 被 CASP3/7 分解,释放出 N-末端(NT)结构域,该结构域可触发哺乳动物细胞的热昏迷。然而,河豚体内 TrGSDMEa 的生物功能尚不清楚,而对 TrGSDMEb 的研究也很少。我们发现,TrGSDMEb 可被 CASP1/3/6/7/8 裂解,但所产生的 NT 结构域尽管在序列和结构上与 TrGSDMEa-NT 结构域相似,却不能诱导化脓作用。在正常生理条件下,TrGSDMEa和TrGSDMEb在河豚体内表现出相似的表达模式,但在哈维氏弧菌和Edwardsiella tarda感染时,它们的表达分别上调和下调。细菌感染诱导河豚细胞中 TrGSDMEa 和 CASP3/7 的活化,导致热蛋白沉积,并伴随着 IL-1β 的产生和成熟。通过TrCASP3/7抑制TrGSDMEa介导的化脓作用可减少河豚细胞的死亡,并促进细菌在鱼组织中的扩散。以结构为导向的诱变确定了远足目动物 GSDMEa 中的 16 个保守残基,这些残基是 GSDMEa 的孔形成或自动抑制所必需的。这项研究说明了 GSDMEa 介导的热昏迷在远洋鱼类抵御细菌病原体中的作用,并对脊椎动物 GSDME 基于结构的功能提供了新的见解:在线版本包含补充材料,可查阅 10.1007/s42995-024-00237-x。
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
Marine Life Science & Technology
Marine Life Science & Technology MARINE & FRESHWATER BIOLOGY-
CiteScore
9.60
自引率
10.50%
发文量
58
期刊介绍: Marine Life Science & Technology (MLST), established in 2019, is dedicated to publishing original research papers that unveil new discoveries and theories spanning a wide spectrum of life sciences and technologies. This includes fundamental biology, fisheries science and technology, medicinal bioresources, food science, biotechnology, ecology, and environmental biology, with a particular focus on marine habitats. The journal is committed to nurturing synergistic interactions among these diverse disciplines, striving to advance multidisciplinary approaches within the scientific field. It caters to a readership comprising biological scientists, aquaculture researchers, marine technologists, biological oceanographers, and ecologists.
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