Annexin A2 binds to endosomes following organelle destabilization by particulate wear debris

Brian Scharf; Cristina C. Clement; Xiao Xuan Wu; Kateryna Morozova; Diego Zanolini; Antonia Follenzi; Jorge N. Larocca; Kalle Levon; Fayyaz S. Sutterwala; Jacob Rand; Neil Cobelli; Ed Purdue; Katherine A. Hajjar; Laura Santambrogio

doi:10.1038/ncomms1754

Annexin A2 binds to endosomes following organelle destabilization by particulate wear debris

Brian Scharf, Cristina C. Clement, Xiao Xuan Wu, Kateryna Morozova, Diego Zanolini, Antonia Follenzi, Jorge N. Larocca, Kalle Levon, Fayyaz S. Sutterwala, Jacob Rand, Neil Cobelli, Ed Purdue, Katherine A. Hajjar, Laura Santambrogio

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43 Scopus citations

Abstract

Endosomal functions are contingent on the integrity of the organelle-limiting membrane, whose disruption induces inflammation and cell death. Here we show that phagocytosis of ultrahigh molecular weight polyethylene particles induces damage to the endosomal-limiting membrane and results in the leakage of cathepsins into the cytosol and NLRP3-inflammasome activation. Annexin A2 recruitment to damaged organelles is shown by two-dimensional DIGE protein profiling, endosomal fractionation, confocal analysis of endogenous and annexin A2-GFP transfected cells, and immunogold labelling. Binding experiments, using fluorescent liposomes, confirms annexin A2 recruitment to endosomes containing phagocytosed polyethylene particles. Finally, an increase in cytosolic cathepsins, NLRP3-inflammasome activation, and IL-1 production is seen in dendritic cells from annexin A2-null mice, following exposure to polyethylene particles. Together, the results indicate a functional role of annexin A2 binding to endosomal membranes following organelle destabilization.

Original language	English (US)
Article number	755
Journal	Nature communications
Volume	3
DOIs	https://doi.org/10.1038/ncomms1754
State	Published - 2012

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Scharf, B., Clement, C. C., Wu, X. X., Morozova, K., Zanolini, D., Follenzi, A., Larocca, J. N., Levon, K., Sutterwala, F. S., Rand, J., Cobelli, N., Purdue, E., Hajjar, K. A., & Santambrogio, L. (2012). Annexin A2 binds to endosomes following organelle destabilization by particulate wear debris. Nature communications, 3, Article 755. https://doi.org/10.1038/ncomms1754

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title = "Annexin A2 binds to endosomes following organelle destabilization by particulate wear debris",

abstract = "Endosomal functions are contingent on the integrity of the organelle-limiting membrane, whose disruption induces inflammation and cell death. Here we show that phagocytosis of ultrahigh molecular weight polyethylene particles induces damage to the endosomal-limiting membrane and results in the leakage of cathepsins into the cytosol and NLRP3-inflammasome activation. Annexin A2 recruitment to damaged organelles is shown by two-dimensional DIGE protein profiling, endosomal fractionation, confocal analysis of endogenous and annexin A2-GFP transfected cells, and immunogold labelling. Binding experiments, using fluorescent liposomes, confirms annexin A2 recruitment to endosomes containing phagocytosed polyethylene particles. Finally, an increase in cytosolic cathepsins, NLRP3-inflammasome activation, and IL-1 production is seen in dendritic cells from annexin A2-null mice, following exposure to polyethylene particles. Together, the results indicate a functional role of annexin A2 binding to endosomal membranes following organelle destabilization.",

author = "Brian Scharf and Clement, {Cristina C.} and Wu, {Xiao Xuan} and Kateryna Morozova and Diego Zanolini and Antonia Follenzi and Larocca, {Jorge N.} and Kalle Levon and Sutterwala, {Fayyaz S.} and Jacob Rand and Neil Cobelli and Ed Purdue and Hajjar, {Katherine A.} and Laura Santambrogio",

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AU - Scharf, Brian

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AU - Wu, Xiao Xuan

AU - Morozova, Kateryna

AU - Zanolini, Diego

AU - Follenzi, Antonia

AU - Larocca, Jorge N.

AU - Levon, Kalle

AU - Sutterwala, Fayyaz S.

AU - Rand, Jacob

AU - Cobelli, Neil

AU - Purdue, Ed

AU - Hajjar, Katherine A.

AU - Santambrogio, Laura

PY - 2012

Y1 - 2012

N2 - Endosomal functions are contingent on the integrity of the organelle-limiting membrane, whose disruption induces inflammation and cell death. Here we show that phagocytosis of ultrahigh molecular weight polyethylene particles induces damage to the endosomal-limiting membrane and results in the leakage of cathepsins into the cytosol and NLRP3-inflammasome activation. Annexin A2 recruitment to damaged organelles is shown by two-dimensional DIGE protein profiling, endosomal fractionation, confocal analysis of endogenous and annexin A2-GFP transfected cells, and immunogold labelling. Binding experiments, using fluorescent liposomes, confirms annexin A2 recruitment to endosomes containing phagocytosed polyethylene particles. Finally, an increase in cytosolic cathepsins, NLRP3-inflammasome activation, and IL-1 production is seen in dendritic cells from annexin A2-null mice, following exposure to polyethylene particles. Together, the results indicate a functional role of annexin A2 binding to endosomal membranes following organelle destabilization.

AB - Endosomal functions are contingent on the integrity of the organelle-limiting membrane, whose disruption induces inflammation and cell death. Here we show that phagocytosis of ultrahigh molecular weight polyethylene particles induces damage to the endosomal-limiting membrane and results in the leakage of cathepsins into the cytosol and NLRP3-inflammasome activation. Annexin A2 recruitment to damaged organelles is shown by two-dimensional DIGE protein profiling, endosomal fractionation, confocal analysis of endogenous and annexin A2-GFP transfected cells, and immunogold labelling. Binding experiments, using fluorescent liposomes, confirms annexin A2 recruitment to endosomes containing phagocytosed polyethylene particles. Finally, an increase in cytosolic cathepsins, NLRP3-inflammasome activation, and IL-1 production is seen in dendritic cells from annexin A2-null mice, following exposure to polyethylene particles. Together, the results indicate a functional role of annexin A2 binding to endosomal membranes following organelle destabilization.

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Annexin A2 binds to endosomes following organelle destabilization by particulate wear debris

Abstract

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