Selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation
Bacterial lipopolysaccharide (LPS) induces rapid protein aggregation in human wound fluid. We aimed to characterize these LPS-induced aggregates and their functional implications using a combination of mass spectrometry analyses, biochemical assays, biological imaging, cell experiments, and animal m...
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sg-ntu-dr.10356-1739142024-03-08T15:45:54Z Selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation Petrlova, Jitka Hartman, Erik Petruk, Ganna Lim, Jeremy Chun Hwee Adav, Sunil Shankar Kjellström, Sven Puthia, Manoj Schmidtchen, Artur School of Materials Science and Engineering Engineering Bacteriology Immunology Bacterial lipopolysaccharide (LPS) induces rapid protein aggregation in human wound fluid. We aimed to characterize these LPS-induced aggregates and their functional implications using a combination of mass spectrometry analyses, biochemical assays, biological imaging, cell experiments, and animal models. The wound-fluid aggregates encompass diverse protein classes, including sequences from coagulation factors, annexins, histones, antimicrobial proteins/peptides, and apolipoproteins. We identified proteins and peptides with a high aggregation propensity and verified selected components through Western blot analysis. Thioflavin T and Amytracker staining revealed amyloid-like aggregates formed after exposure to LPS in vitro in human wound fluid and in vivo in porcine wound models. Using NF-κB-reporter mice and IVIS bioimaging, we demonstrate that such wound-fluid LPS aggregates induce a significant reduction in local inflammation compared with LPS in plasma. The results show that protein/peptide aggregation is a mechanism for confining LPS and reducing inflammation, further emphasizing the connection between host defense and amyloidogenesis. Published version This work was supported by grants from the Swedish Research Council (project 2017-02341, 2020-02016), the LEO Foundation , the Welander-Finsen, Crafoord, Österlund, Johanssons, Hedlunds, Kockska, Ståhls, and Söderberg Foundations, the Knut and Alice Wallenberg Foundation , The Swedish Government Funds for Clinical Research ( ALF ), and the Medical faculty of Lund University. 2024-03-06T01:18:20Z 2024-03-06T01:18:20Z 2023 Journal Article Petrlova, J., Hartman, E., Petruk, G., Lim, J. C. H., Adav, S. S., Kjellström, S., Puthia, M. & Schmidtchen, A. (2023). Selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation. IScience, 26(10), 107951-. https://dx.doi.org/10.1016/j.isci.2023.107951 2589-0042 https://hdl.handle.net/10356/173914 10.1016/j.isci.2023.107951 37817942 2-s2.0-85172402839 10 26 107951 en iScience © 2023 The Author(s). This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering Bacteriology Immunology Petrlova, Jitka Hartman, Erik Petruk, Ganna Lim, Jeremy Chun Hwee Adav, Sunil Shankar Kjellström, Sven Puthia, Manoj Schmidtchen, Artur Selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation |
| description |
Bacterial lipopolysaccharide (LPS) induces rapid protein aggregation in human wound fluid. We aimed to characterize these LPS-induced aggregates and their functional implications using a combination of mass spectrometry analyses, biochemical assays, biological imaging, cell experiments, and animal models. The wound-fluid aggregates encompass diverse protein classes, including sequences from coagulation factors, annexins, histones, antimicrobial proteins/peptides, and apolipoproteins. We identified proteins and peptides with a high aggregation propensity and verified selected components through Western blot analysis. Thioflavin T and Amytracker staining revealed amyloid-like aggregates formed after exposure to LPS in vitro in human wound fluid and in vivo in porcine wound models. Using NF-κB-reporter mice and IVIS bioimaging, we demonstrate that such wound-fluid LPS aggregates induce a significant reduction in local inflammation compared with LPS in plasma. The results show that protein/peptide aggregation is a mechanism for confining LPS and reducing inflammation, further emphasizing the connection between host defense and amyloidogenesis. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Petrlova, Jitka Hartman, Erik Petruk, Ganna Lim, Jeremy Chun Hwee Adav, Sunil Shankar Kjellström, Sven Puthia, Manoj Schmidtchen, Artur |
| format |
Article |
| author |
Petrlova, Jitka Hartman, Erik Petruk, Ganna Lim, Jeremy Chun Hwee Adav, Sunil Shankar Kjellström, Sven Puthia, Manoj Schmidtchen, Artur |
| author_sort |
Petrlova, Jitka |
| title |
Selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation |
| title_short |
Selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation |
| title_full |
Selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation |
| title_fullStr |
Selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation |
| title_full_unstemmed |
Selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation |
| title_sort |
selective protein aggregation confines and inhibits endotoxins in wounds: linking host defense to amyloid formation |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173914 |
| _version_ |
1794549403978039296 |