Antimicrobial Histones and DNA Traps in Invertebrate Immunity: EVIDENCES IN

Background: How antimicrobial histones participate in invertebrate defense was still unclear. Results: Upon injury or infection, oyster immune cells release antimicrobial histones and extracellular DNA traps in a ROS-dependent manner. Conclusion: DNA traps are involved in the defense of Lophotrochoz...

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Veröffentlicht in:	The Journal of biological chemistry 2014-07, Vol.289 (36), p.24821-24831
Hauptverfasser:	Poirier, Aurore C., Schmitt, Paulina, Rosa, Rafael D., Vanhove, Audrey S., Kieffer-Jaquinod, Sylvie, Rubio, Tristan P., Charrière, Guillaume M., Destoumieux-Garzón, Delphine
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Schlagworte:	Immunology
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container_title	The Journal of biological chemistry
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creator	Poirier, Aurore C. Schmitt, Paulina Rosa, Rafael D. Vanhove, Audrey S. Kieffer-Jaquinod, Sylvie Rubio, Tristan P. Charrière, Guillaume M. Destoumieux-Garzón, Delphine
description	Background: How antimicrobial histones participate in invertebrate defense was still unclear. Results: Upon injury or infection, oyster immune cells release antimicrobial histones and extracellular DNA traps in a ROS-dependent manner. Conclusion: DNA traps are involved in the defense of Lophotrochozoa. Their mechanistic bases are shared with vertebrates. Significance: This is a novel mechanism in the evolutionary conserved invertebrate immune arsenal. Although antimicrobial histones have been isolated from multiple metazoan species, their role in host defense has long remained unanswered. We found here that the hemocytes of the oyster Crassostrea gigas release antimicrobial H1-like and H5-like histones in response to tissue damage and infection. These antimicrobial histones were shown to be associated with extracellular DNA networks released by hemocytes, the circulating immune cells of invertebrates, in response to immune challenge. The hemocyte-released DNA was found to surround and entangle vibrios. This defense mechanism is reminiscent of the neutrophil extracellular traps (ETs) recently described in vertebrates. Importantly, oyster ETs were evidenced in vivo in hemocyte-infiltrated interstitial tissues surrounding wounds, whereas they were absent from tissues of unchallenged oysters. Consistently, antimicrobial histones were found to accumulate in oyster tissues following injury or infection with vibrios. Finally, oyster ET formation was highly dependent on the production of reactive oxygen species by hemocytes. This shows that ET formation relies on common cellular and molecular mechanisms from vertebrates to invertebrates. Altogether, our data reveal that ET formation is a defense mechanism triggered by infection and tissue damage, which is shared by relatively distant species suggesting either evolutionary conservation or convergent evolution within Bilateria.
doi_str_mv	10.1074/jbc.M114.576546
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Results: Upon injury or infection, oyster immune cells release antimicrobial histones and extracellular DNA traps in a ROS-dependent manner. Conclusion: DNA traps are involved in the defense of Lophotrochozoa. Their mechanistic bases are shared with vertebrates. Significance: This is a novel mechanism in the evolutionary conserved invertebrate immune arsenal. Although antimicrobial histones have been isolated from multiple metazoan species, their role in host defense has long remained unanswered. We found here that the hemocytes of the oyster Crassostrea gigas release antimicrobial H1-like and H5-like histones in response to tissue damage and infection. These antimicrobial histones were shown to be associated with extracellular DNA networks released by hemocytes, the circulating immune cells of invertebrates, in response to immune challenge. The hemocyte-released DNA was found to surround and entangle vibrios. This defense mechanism is reminiscent of the neutrophil extracellular traps (ETs) recently described in vertebrates. Importantly, oyster ETs were evidenced in vivo in hemocyte-infiltrated interstitial tissues surrounding wounds, whereas they were absent from tissues of unchallenged oysters. Consistently, antimicrobial histones were found to accumulate in oyster tissues following injury or infection with vibrios. Finally, oyster ET formation was highly dependent on the production of reactive oxygen species by hemocytes. This shows that ET formation relies on common cellular and molecular mechanisms from vertebrates to invertebrates. 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Results: Upon injury or infection, oyster immune cells release antimicrobial histones and extracellular DNA traps in a ROS-dependent manner. Conclusion: DNA traps are involved in the defense of Lophotrochozoa. Their mechanistic bases are shared with vertebrates. Significance: This is a novel mechanism in the evolutionary conserved invertebrate immune arsenal. Although antimicrobial histones have been isolated from multiple metazoan species, their role in host defense has long remained unanswered. We found here that the hemocytes of the oyster Crassostrea gigas release antimicrobial H1-like and H5-like histones in response to tissue damage and infection. These antimicrobial histones were shown to be associated with extracellular DNA networks released by hemocytes, the circulating immune cells of invertebrates, in response to immune challenge. The hemocyte-released DNA was found to surround and entangle vibrios. 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Results: Upon injury or infection, oyster immune cells release antimicrobial histones and extracellular DNA traps in a ROS-dependent manner. Conclusion: DNA traps are involved in the defense of Lophotrochozoa. Their mechanistic bases are shared with vertebrates. Significance: This is a novel mechanism in the evolutionary conserved invertebrate immune arsenal. Although antimicrobial histones have been isolated from multiple metazoan species, their role in host defense has long remained unanswered. We found here that the hemocytes of the oyster Crassostrea gigas release antimicrobial H1-like and H5-like histones in response to tissue damage and infection. These antimicrobial histones were shown to be associated with extracellular DNA networks released by hemocytes, the circulating immune cells of invertebrates, in response to immune challenge. The hemocyte-released DNA was found to surround and entangle vibrios. This defense mechanism is reminiscent of the neutrophil extracellular traps (ETs) recently described in vertebrates. Importantly, oyster ETs were evidenced in vivo in hemocyte-infiltrated interstitial tissues surrounding wounds, whereas they were absent from tissues of unchallenged oysters. Consistently, antimicrobial histones were found to accumulate in oyster tissues following injury or infection with vibrios. Finally, oyster ET formation was highly dependent on the production of reactive oxygen species by hemocytes. This shows that ET formation relies on common cellular and molecular mechanisms from vertebrates to invertebrates. Altogether, our data reveal that ET formation is a defense mechanism triggered by infection and tissue damage, which is shared by relatively distant species suggesting either evolutionary conservation or convergent evolution within Bilateria.</abstract><cop>9650 Rockville Pike, Bethesda, MD 20814, U.S.A</cop><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>25037219</pmid><doi>10.1074/jbc.M114.576546</doi></addata></record>
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subjects	Immunology
title	Antimicrobial Histones and DNA Traps in Invertebrate Immunity: EVIDENCES IN
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