Gasdermin D (GSDMD) is the chief executioner of inflammatory cell death or pyroptosis. During pyroptosis, proteolytic processing of GSDMD releases its N-terminal domain (NTD), which then forms large oligomeric pores in the plasma membranes. Membrane pore-formation by NTD allows the release of inflammatory cytokines and causes membrane damage to induce cell death. Structural mechanisms of GSDMD-mediated membrane pore-formation have been extensively studied. However, less effort has been made to understand the physicochemical properties of GSDMD and their functional implications. Here, we explore detailed characterization of the physicochemical properties of mouse GSDMD (mGSDMD), and their implications in regulating the pore-forming function. Our study reveals that mGSDMD shows some of the hallmark features of amyloids, and forms oligomeric assemblies in solution that are critically dependent on the disulfide bond-forming ability of the protein. mGSDMD oligomeric assemblies do not resemble typical amyloid fibrils/aggregates, and do not show resistance to proteolytic degradation that is otherwise observed with the conventional amyloids. Our results further elucidate the essential role of an amyloid-prone region (APR) in the oligomerization and amyloid-like features of mGSDMD. Furthermore, alteration of this APR leads to compromised pore-forming ability and cell-killing activity of NTD released from mGSDMD. Taken together, our study for the first time provides crucial new insights regarding implications of the amyloid-like property of mGSDMD in regulating its pore-forming function, which is an essential requirement for this pyroptotic executioner. To the best of our knowledge, such mode of regulation of mGSDMD-function has not been appreciated so far.
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The cover image visually captures the manuscript's core theme regarding the evolutionary conservation between canines and humans, particularly emphasizing the valuable role of canine models in advancing cancer research. For further information, see the article by Mudrale and colleagues (pp. 1603–1620) in this issue. The image is provided by Kakoli Bose.
Research Article|
November 14 2024
Pyroptotic executioner pore-forming protein gasdermin D forms oligomeric assembly and exhibits amyloid-like attributes that could contribute for its pore-forming function
Shamaita Chatterjee;
Shamaita Chatterjee
Conceptualization, Data curation, Formal analysis, Validation, Investigation, Visualization, Methodology, Writing - original draft, Writing - review & editing
1Department of Biological Sciences, Indian Institute of Science Education and Research Mohali, Sector 81, SAS Nagar, Manauli, Mohali, Punjab 140306, India
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Tarang Gupta;
Tarang Gupta
Methodology
2Department of Chemical Sciences, Indian Institute of Science Education and Research Mohali, Sector 81, SAS Nagar, Manauli, Mohali, Punjab 140306, India
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Gurvinder Kaur;
Gurvinder Kaur
Methodology
1Department of Biological Sciences, Indian Institute of Science Education and Research Mohali, Sector 81, SAS Nagar, Manauli, Mohali, Punjab 140306, India
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Kausik Chattopadhyay
Conceptualization, Data curation, Formal analysis, Supervision, Funding acquisition, Validation, Writing - original draft, Project administration, Writing - review & editing
1Department of Biological Sciences, Indian Institute of Science Education and Research Mohali, Sector 81, SAS Nagar, Manauli, Mohali, Punjab 140306, India
Correspondence: Kausik Chattopadhyay ([email protected])
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Publisher: Portland Press Ltd
Received:
July 16 2024
Revision Received:
November 04 2024
Accepted:
November 06 2024
Online ISSN: 1470-8728
Print ISSN: 0264-6021
© 2024 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society
2024
Biochem J (2024) 481 (22): 1679–1705.
Article history
Received:
July 16 2024
Revision Received:
November 04 2024
Accepted:
November 06 2024
Citation
Shamaita Chatterjee, Tarang Gupta, Gurvinder Kaur, Kausik Chattopadhyay; Pyroptotic executioner pore-forming protein gasdermin D forms oligomeric assembly and exhibits amyloid-like attributes that could contribute for its pore-forming function. Biochem J 20 November 2024; 481 (22): 1679–1705. doi: https://doi.org/10.1042/BCJ20240416
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