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

Hang Xu; Kunpeng Qin; Kangwei Hao; Zihao Yuan; Li Sun

doi:10.1007/s42995-024-00237-x

Marine Life Science & Technology ›› 2024, Vol. 6 ›› Issue (3) : 462-474. DOI: 10.1007/s42995-024-00237-x

Research Paper

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

Hang Xu¹^,²^,³ ,
Kunpeng Qin¹^,²^,³ ,
Kangwei Hao¹^,²^,³ ,
Zihao Yuan¹^,²^,³^,^d ,
Li Sun¹^,²^,³^,^e

Author information +

History +

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.

Keywords

GSDME / Caspase / Takifugu rubripes / Bacterial infection / Immune defense

Cite this article

EndNote

Ris (Procite)

Bibtex

Download citation ▾

Hang Xu, Kunpeng Qin, Kangwei Hao, Zihao Yuan, Li Sun. Pufferfish gasdermin Ea is a significant player in the defense against bacterial pathogens. Marine Life Science & Technology, 2024, 6(3): 462‒474 https://doi.org/10.1007/s42995-024-00237-x

References

Publishing order | Descend order by publishing year | Descend order by cited within

[]

Aparicio

, Chapman

, Stupka

, Putnam

, Chia

, Dehal

, Christoffels

, Rash

, Hoon

, Smit

, Gelpke

, Roach

, Oh

, Ho

, Wong

, Detter

, Verhoef

, Predki

, Tay

, Lucas

, et al.. Whole-genome shotgun assembly and analysis of the genome of Fugu rubripes. Science, 2002, 297: 1301-1310,

Pubmed

[]	Booty LM, Bryant CE. Gasdermin D and beyond - gasdermin-mediated pyroptosis in bacterial infections. J Mol Biol, 2022, 434, Pubmed

[]	Brenner S, Elgar G, Sandford R, Macrae A, Venkatesh B, Aparicio S. Characterization of the pufferfish (Fugu) genome as a compact model vertebrate genome. Nature, 1993, 366: 265-268, Pubmed

[]	Broz P, Pelegrin P, Shao F. The gasdermins, a protein family executing cell death and inflammation. Nat Rev Immunol, 2020, 20: 143-157, Pubmed

[]	Chen H, Wu X, Gu Z, Chen S, Zhou X, Zhang Y, Liu Q, Wang Z, Yang D. Zebrafish gasdermin E cleavage-engaged pyroptosis by inflammatory and apoptotic caspases. Dev Comp Immunol, 2021, 124, Pubmed

[]	Chen S, Li S, Chen H, Gong Y, Yang D, Zhang Y, Liu Q. Caspase-mediated LPS sensing and pyroptosis signaling in Hydra. Sci Adv, 2023, 9: eadh4054, pmcid: 10361584 Pubmed

[]	Chen X, He WT, Hu L, Li J, Fang Y, Wang X, Xu X, Wang Z, Huang K, Han J. Pyroptosis is driven by non-selective gasdermin-D pore and its morphology is different from MLKL channel-mediated necroptosis. Cell Res, 2016, 26: 1007-1020, pmcid: 5034106 Pubmed

[]	De Schutter E, Roelandt R, Riquet FB, Van Camp G, Wullaert A, Vandenabeele P. Punching holes in cellular membranes: biology and evolution of gasdermins. Trends Cell Biol, 2021, 31: 500-513, Pubmed

[]	Ding J, Wang K, Liu W, She Y, Sun Q, Shi J, Sun H, Wang DC, Shao F. Pore-forming activity and structural autoinhibition of the gasdermin family. Nature, 2016, 535: 111-116, Pubmed

[]	Feng S, Fox D, Man SM. Mechanisms of gasdermin family members in inflammasome signaling and cell death. J Mol Biol, 2018, 430: 3068-3080, Pubmed

[]	He WT, Wan H, Hu L, Chen P, Wang X, Huang Z, Yang ZH, Zhong CQ, Han J. Gasdermin D is an executor of pyroptosis and required for interleukin-1beta secretion. Cell Res, 2015, 25: 1285-1298, pmcid: 4670995 Pubmed

[]	Hofmann K. The evolutionary origins of programmed cell death signaling. Cold Spring Harb Perspect Biol, 2020, 12, pmcid: 7461761 Pubmed

[]	Huang Y, Li YF, Wang RX, Xie MF, Shi Y, Zhao Z. Calreticulin functions in antimicrobial immunity of obscure puffer Takifugu obscurus. Mol Immunol, 2021, 140: 77-86, Pubmed

[]	Jiang S, Gu H, Zhao Y, Sun L. Teleost gasdermin E is cleaved by caspase 1, 3, and 7 and induces pyroptosis. J Immunol, 2019, 203: 1369-1382, Pubmed

[]	Jiang S, Zhou Z, Sun Y, Zhang T, Sun L. Coral gasdermin triggers pyroptosis. Sci Immunol, 2020, 5: eadb2591

[]

Kayagaki

, Stowe

, Lee

, O'Rourke

, Anderson

, Warming

, Cuellar

, Haley

, Roose-Girma

, Phung

, Liu

, Lill

, Li

, Wu

, Kummerfeld

, Zhang

, Lee

, Snipas

, Salvesen

, Morris

, et al.. Caspase-11 cleaves gasdermin D for non-canonical inflammasome signaling. Nature, 2015, 526: 666-671,

Pubmed

[]	Keller M, Ruegg A, Werner S, Beer HD. Active caspase-1 is a regulator of unconventional protein secretion. Cell, 2008, 132: 818-831, Pubmed

[]	Kesavardhana S, Malireddi RKS, Kanneganti TD. Caspases in cell death, inflammation, and pyroptosis. Annu Rev Immunol, 2020, 38: 567-595, pmcid: 7190443 Pubmed

[]	Kovacs SB, Miao EA. Gasdermins: effectors of pyroptosis. Trends Cell Biol, 2017, 27: 673-684, pmcid: 5565696 Pubmed

[]	Li M, Wu M, Sun Y, Sun L. Edwardsiella tarda TraT is an anti-complement factor and a cellular infection promoter. Commun Biol, 2022, 5: 637, pmcid: 9243006 Pubmed

[]	Liu X, Xia S, Zhang Z, Wu H, Lieberman J. Channelling inflammation: gasdermins in physiology and disease. Nat Rev Drug Discov, 2021, 20: 384-405, pmcid: 7944254 Pubmed

[]	Magnani L, Colantuoni M, Mortellaro A. Gasdermins: new therapeutic targets in host defense, inflammatory diseases, and cancer. Front Immunol, 2022, 13, pmcid: 9285118 Pubmed

[]	Man SM, Karki R, Kanneganti TD. Molecular mechanisms and functions of pyroptosis, inflammatory caspases and inflammasomes in infectious diseases. Immunol Rev, 2017, 277: 61-75, pmcid: 5416822 Pubmed

[]	Mantovani A, Dinarello CA, Molgora M, Garlanda C. Interleukin-1 and related cytokines in the regulation of inflammation and immunity. Immunity, 2019, 50: 778-795, pmcid: 7174020 Pubmed

[]	Qin K, Jiang S, Xu H, Yuan Z, Sun L. Pyroptotic gasdermin exists in Mollusca and is vital to eliminating bacterial infection. Cell Rep, 2023, 42, Pubmed

[]	Rogers C, Alnemri ES. Gasdermins: novel mitochondrial pore-forming proteins. Mol Cell Oncol, 2019, 6, pmcid: 6736162 Pubmed

[]	Rogers C, Fernandes-Alnemri T, Mayes L, Alnemri D, Cingolani G, Alnemri ES. Cleavage of DFNA5 by caspase-3 during apoptosis mediates progression to secondary necrotic/pyroptotic cell death. Nat Commun, 2017, 8: 14128, pmcid: 5216131 Pubmed

[]	Ruan J, Xia S, Liu X, Lieberman J, Wu H. Cryo-EM structure of the gasdermin A3 membrane pore. Nature, 2018, 557: 62-67, pmcid: 6007975 Pubmed

[]	Shi J, Gao W, Shao F. Pyroptosis: gasdermin-mediated programmed necrotic cell death. Trends Biochem Sci, 2017, 42: 245-254, Pubmed

[]	Shi J, Zhao Y, Wang K, Shi X, Wang Y, Huang H, Zhuang Y, Cai T, Wang F, Shao F. Cleavage of GSDMD by inflammatory caspases determines pyroptotic cell death. Nature, 2015, 526: 660-665, Pubmed

[]	Tamura M, Tanaka S, Fujii T, Aoki A, Komiyama H, Ezawa K, Sumiyama K, Sagai T, Shiroishi T. Members of a novel gene family, Gsdm, are expressed exclusively in the epithelium of the skin and gastrointestinal tract in a highly tissue-specific manner. Genomics, 2007, 89: 618-629, Pubmed

[]	van de Veerdonk FL, Netea MG, Dinarello CA, Joosten LA. Inflammasome activation and IL-1beta and IL-18 processing during infection. Trends Immunol, 2011, 32: 110-116, Pubmed

[]	Wang J, Deobald K, Re F. Gasdermin D protects from melioidosis through pyroptosis and direct killing of bacteria. J Immunol, 2019, 202: 3468-3473, Pubmed

[]	Wang Y, Gao W, Shi X, Ding J, Liu W, He H, Wang K, Shao F. Chemotherapy drugs induce pyroptosis through caspase-3 cleavage of a gasdermin. Nature, 2017, 547: 99-103, Pubmed

[]	Wang Z, Gu Z, Hou Q, Chen W, Mu D, Zhang Y, Liu Q, Liu Z, Yang D. Zebrafish GSDMEb cleavage-gated pyroptosis drives septic acute kidney injury in vivo. J Immunol, 2020, 204: 1929-1942, Pubmed

[]	Xia S, Zhang Z, Magupalli VG, Pablo JL, Dong Y, Vora SM, Wang L, Fu TM, Jacobson MP, Greka A, Lieberman J, Ruan J, Wu H. Gasdermin D pore structure reveals preferential release of mature interleukin-1. Nature, 2021, 593: 607-611, pmcid: 8588876 Pubmed

[]	Xu H, Jiang S, Yu C, Yuan Z, Sun L. GSDMEa-mediated pyroptosis is bi-directionally regulated by caspase and required for effective bacterial clearance in teleost. Cell Death Dis, 2022, 13: 491, pmcid: 9130220 Pubmed

[]	Xu H, Yuan Z, Qin K, Jiang S, Sun L. The molecular mechanism and evolutionary divergence of caspase 3/7-regulated gasdermin E activation. eLife, 2024, 12: RP89974, pmcid: 10942788 Pubmed

[]	Xu H, Yuan Z, Sun L. A non-canonical teleost NK-Lysin: antimicrobial activity via multiple mechanisms. Int J Mol Sci, 2022, 23: 12722, pmcid: 9654944 Pubmed

[]	Yamanoue Y, Miya M, Matsuura K, Miyazawa S, Tsukamoto N, Doi H, Takahashi H, Mabuchi K, Nishida M, Sakai H. Explosive speciation of Takifugu: another use of fugu as a model system for evolutionary biology. Mol Biol Evol, 2009, 26: 623-629, Pubmed

[]	Yuan Z, Jiang S, Qin K, Sun L. New insights into the evolutionary dynamic and lineage divergence of gasdermin E in metazoa. Front Cell Dev Biol, 2022, 10, pmcid: 9355259 Pubmed

[]	Zhang HQ, Jin XY, Li XP, Li MF. IL8 of Takifugu rubripes is a chemokine that interacts with peripheral blood leukocytes and promotes antibacterial defense. Fish Shellfish Immunol, 2023, 139, Pubmed

[]	Zhang M, Sun K, Sun L. Regulation of autoinducer 2 production and luxS expression in a pathogenic Edwardsiella tarda strain. Microbiology, 2008, 154: 2060-2069, Pubmed

[]	Zhang WW, Sun K, Cheng S, Sun L. Characterization of DegQVh, a serine protease and a protective immunogen from a pathogenic Vibrio harveyi strain. Appl Environ Microbiol, 2008, 74: 6254-6262, pmcid: 2570273 Pubmed

[]	Zhao Y, Qiao D, Zhang J, Gao F, Pei C, Li C, Kong X. Activation mechanism of CcGSDMEb-1/2 and regulation for bacterial clearance in common carp (Cyprinus carpio). J Immunol, 2023, 211: 658-672, Pubmed

[]	Zhu Q, Zheng M, Balakrishnan A, Karki R, Kanneganti TD. Gasdermin D promotes AIM2 inflammasome activation and is required for host protection against Francisella novicida. J Immunol, 2018, 201: 3662-3668, Pubmed