Toxicity of Eosinophil MBP Is Repressed by Intracellular Crystallization and Promoted by Extracellular Aggregation

Alice Soragni; Shida Yousefi; Christina Stoeckle; Angela B. Soriaga; Michael R. Sawaya; Evelyne Kozlowski; Inès Schmid; Susanne Radonjic-Hoesli; Sebastien Boutet; Garth J. Williams; Marc Messerschmidt; M. Marvin Seibert; Duilio Cascio; Nadia Zatsepin; Manfred Burghammer; Christian Riekel; Jacques Philippe Colletier; Roland Riek; David S. Eisenberg; Hans Uwe Simon

doi:10.1016/j.molcel.2015.01.026

Toxicity of Eosinophil MBP Is Repressed by Intracellular Crystallization and Promoted by Extracellular Aggregation

Alice Soragni, Shida Yousefi, Christina Stoeckle, Angela B. Soriaga, Michael R. Sawaya, Evelyne Kozlowski, Inès Schmid, Susanne Radonjic-Hoesli, Sebastien Boutet, Garth J. Williams, Marc Messerschmidt, M. Marvin Seibert, Duilio Cascio, Nadia Zatsepin, Manfred Burghammer, Christian Riekel, Jacques Philippe Colletier, Roland Riek, David S. Eisenberg, Hans Uwe Simon

Research output: Contribution to journal › Article › peer-review

85 Scopus citations

Abstract

Eosinophils are white blood cells that function in innate immunity and participate in the pathogenesis of various inflammatory and neoplastic disorders. Their secretory granules contain four cytotoxic proteins, including the eosinophil major basic protein (MBP-1). How MBP-1 toxicity is controlled within theeosinophil itself and activated upon extracellular release is unknown. Here we show how intragranular MBP-1 nanocrystals restrain toxicity, enabling its safe storage, and characterize them with an X-ray-free electron laser. Following eosinophil activation, MBP-1 toxicity is triggered by granule acidification, followed by extracellular aggregation, which mediates the damage to pathogens and host cells. Larger non-toxic amyloid plaques are also present in tissues of eosinophilic patients in a feedback mechanism that likely limits tissue damage under pathological conditions of MBP-1 oversecretion. Our results suggest that MBP-1 aggregation is important for innate immunity and immunopathology mediated by eosinophils and clarify how its polymorphic self-association pathways regulate toxicity intra- and extracellularly.

Original language	English (US)
Pages (from-to)	1011-1021
Number of pages	11
Journal	Molecular Cell
Volume	57
Issue number	6
DOIs	https://doi.org/10.1016/j.molcel.2015.01.026
State	Published - Mar 19 2015

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/j.molcel.2015.01.026

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Soragni, A., Yousefi, S., Stoeckle, C., Soriaga, A. B., Sawaya, M. R., Kozlowski, E., Schmid, I., Radonjic-Hoesli, S., Boutet, S., Williams, G. J., Messerschmidt, M., Seibert, M. M., Cascio, D., Zatsepin, N., Burghammer, M., Riekel, C., Colletier, J. P., Riek, R., Eisenberg, D. S., & Simon, H. U. (2015). Toxicity of Eosinophil MBP Is Repressed by Intracellular Crystallization and Promoted by Extracellular Aggregation. Molecular Cell, 57(6), 1011-1021. https://doi.org/10.1016/j.molcel.2015.01.026

Soragni, A, Yousefi, S, Stoeckle, C, Soriaga, AB, Sawaya, MR, Kozlowski, E, Schmid, I, Radonjic-Hoesli, S, Boutet, S, Williams, GJ, Messerschmidt, M, Seibert, MM, Cascio, D, Zatsepin, N, Burghammer, M, Riekel, C, Colletier, JP, Riek, R, Eisenberg, DS & Simon, HU 2015, 'Toxicity of Eosinophil MBP Is Repressed by Intracellular Crystallization and Promoted by Extracellular Aggregation', Molecular Cell, vol. 57, no. 6, pp. 1011-1021. https://doi.org/10.1016/j.molcel.2015.01.026

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title = "Toxicity of Eosinophil MBP Is Repressed by Intracellular Crystallization and Promoted by Extracellular Aggregation",

abstract = "Eosinophils are white blood cells that function in innate immunity and participate in the pathogenesis of various inflammatory and neoplastic disorders. Their secretory granules contain four cytotoxic proteins, including the eosinophil major basic protein (MBP-1). How MBP-1 toxicity is controlled within theeosinophil itself and activated upon extracellular release is unknown. Here we show how intragranular MBP-1 nanocrystals restrain toxicity, enabling its safe storage, and characterize them with an X-ray-free electron laser. Following eosinophil activation, MBP-1 toxicity is triggered by granule acidification, followed by extracellular aggregation, which mediates the damage to pathogens and host cells. Larger non-toxic amyloid plaques are also present in tissues of eosinophilic patients in a feedback mechanism that likely limits tissue damage under pathological conditions of MBP-1 oversecretion. Our results suggest that MBP-1 aggregation is important for innate immunity and immunopathology mediated by eosinophils and clarify how its polymorphic self-association pathways regulate toxicity intra- and extracellularly.",

author = "Alice Soragni and Shida Yousefi and Christina Stoeckle and Soriaga, {Angela B.} and Sawaya, {Michael R.} and Evelyne Kozlowski and In{\`e}s Schmid and Susanne Radonjic-Hoesli and Sebastien Boutet and Williams, {Garth J.} and Marc Messerschmidt and Seibert, {M. Marvin} and Duilio Cascio and Nadia Zatsepin and Manfred Burghammer and Christian Riekel and Colletier, {Jacques Philippe} and Roland Riek and Eisenberg, {David S.} and Simon, {Hans Uwe}",

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AU - Soragni, Alice

AU - Yousefi, Shida

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AU - Soriaga, Angela B.

AU - Sawaya, Michael R.

AU - Kozlowski, Evelyne

AU - Schmid, Inès

AU - Radonjic-Hoesli, Susanne

AU - Boutet, Sebastien

AU - Williams, Garth J.

AU - Messerschmidt, Marc

AU - Seibert, M. Marvin

AU - Cascio, Duilio

AU - Zatsepin, Nadia

AU - Burghammer, Manfred

AU - Riekel, Christian

AU - Colletier, Jacques Philippe

AU - Riek, Roland

AU - Eisenberg, David S.

AU - Simon, Hans Uwe

PY - 2015/3/19

Y1 - 2015/3/19

N2 - Eosinophils are white blood cells that function in innate immunity and participate in the pathogenesis of various inflammatory and neoplastic disorders. Their secretory granules contain four cytotoxic proteins, including the eosinophil major basic protein (MBP-1). How MBP-1 toxicity is controlled within theeosinophil itself and activated upon extracellular release is unknown. Here we show how intragranular MBP-1 nanocrystals restrain toxicity, enabling its safe storage, and characterize them with an X-ray-free electron laser. Following eosinophil activation, MBP-1 toxicity is triggered by granule acidification, followed by extracellular aggregation, which mediates the damage to pathogens and host cells. Larger non-toxic amyloid plaques are also present in tissues of eosinophilic patients in a feedback mechanism that likely limits tissue damage under pathological conditions of MBP-1 oversecretion. Our results suggest that MBP-1 aggregation is important for innate immunity and immunopathology mediated by eosinophils and clarify how its polymorphic self-association pathways regulate toxicity intra- and extracellularly.

AB - Eosinophils are white blood cells that function in innate immunity and participate in the pathogenesis of various inflammatory and neoplastic disorders. Their secretory granules contain four cytotoxic proteins, including the eosinophil major basic protein (MBP-1). How MBP-1 toxicity is controlled within theeosinophil itself and activated upon extracellular release is unknown. Here we show how intragranular MBP-1 nanocrystals restrain toxicity, enabling its safe storage, and characterize them with an X-ray-free electron laser. Following eosinophil activation, MBP-1 toxicity is triggered by granule acidification, followed by extracellular aggregation, which mediates the damage to pathogens and host cells. Larger non-toxic amyloid plaques are also present in tissues of eosinophilic patients in a feedback mechanism that likely limits tissue damage under pathological conditions of MBP-1 oversecretion. Our results suggest that MBP-1 aggregation is important for innate immunity and immunopathology mediated by eosinophils and clarify how its polymorphic self-association pathways regulate toxicity intra- and extracellularly.

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Toxicity of Eosinophil MBP Is Repressed by Intracellular Crystallization and Promoted by Extracellular Aggregation

Abstract

ASJC Scopus subject areas

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Structure of the amyloid forming peptide GNLVS (residues 26-30) from the eosinophil major basic protein (EMBP)

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Toxicity of Eosinophil MBP Is Repressed by Intracellular Crystallization and Promoted by Extracellular Aggregation

Abstract

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Datasets

Structure of the amyloid forming peptide GNLVS (residues 26-30) from the eosinophil major basic protein (EMBP)

Cite this