Broad Ultrastructural and Transcriptomic Changes Underlie the Multinucleated Giant Hemocyte Mediated Innate Immune Response against Parasitoids
Multinucleated giant hemocytes (MGHs) represent a novel type of blood cell in insects that participate in a highly efficient immune response against parasitoid wasps involving isolation and killing of the parasite. Previously, we showed that circulating MGHs have high motility and the interaction wi...
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| Veröffentlicht in: | Journal of Innate Immunity 2022, Vol.14 (4), p.335-354 |
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| creator | Cinege, Gyöngyi Magyar, Lilla B. Kovács, Attila L. Lerner, Zita Juhász, Gábor Lukacsovich, David Winterer, Jochen Lukacsovich, Tamás Hegedűs, Zoltán Kurucz, Éva Hultmark, Dan Földy, Csaba Andó, István |
| description | Multinucleated giant hemocytes (MGHs) represent a novel type of blood cell in insects that participate in a highly efficient immune response against parasitoid wasps involving isolation and killing of the parasite. Previously, we showed that circulating MGHs have high motility and the interaction with the parasitoid rapidly triggers encapsulation. However, structural and molecular mechanisms behind these processes remained elusive. Here, we used detailed ultrastructural analysis and live cell imaging of MGHs to study encapsulation in Drosophila ananassae after parasitoid wasp infection. We found dynamic structural changes, mainly driven by the formation of diverse vesicular systems and newly developed complex intracytoplasmic membrane structures, and abundant generation of giant cell exosomes in MGHs. In addition, we used RNA sequencing to study the transcriptomic profile of MGHs and activated plasmatocytes 72 h after infection, as well as the uninduced blood cells. This revealed that differentiation of MGHs was accompanied by broad changes in gene expression. Consistent with the observed structural changes, transcripts related to vesicular function, cytoskeletal organization, and adhesion were enriched in MGHs. In addition, several orphan genes encoding for hemolysin-like proteins, pore-forming toxins of prokaryotic origin, were expressed at high level, which may be important for parasitoid elimination. Our results reveal coordinated molecular and structural changes in the course of MGH differentiation and parasitoid encapsulation, providing a mechanistic model for a powerful innate immune response. |
| doi_str_mv | 10.1159/000520110 |
| format | Article |
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Previously, we showed that circulating MGHs have high motility and the interaction with the parasitoid rapidly triggers encapsulation. However, structural and molecular mechanisms behind these processes remained elusive. Here, we used detailed ultrastructural analysis and live cell imaging of MGHs to study encapsulation in Drosophila ananassae after parasitoid wasp infection. We found dynamic structural changes, mainly driven by the formation of diverse vesicular systems and newly developed complex intracytoplasmic membrane structures, and abundant generation of giant cell exosomes in MGHs. In addition, we used RNA sequencing to study the transcriptomic profile of MGHs and activated plasmatocytes 72 h after infection, as well as the uninduced blood cells. This revealed that differentiation of MGHs was accompanied by broad changes in gene expression. Consistent with the observed structural changes, transcripts related to vesicular function, cytoskeletal organization, and adhesion were enriched in MGHs. In addition, several orphan genes encoding for hemolysin-like proteins, pore-forming toxins of prokaryotic origin, were expressed at high level, which may be important for parasitoid elimination. Our results reveal coordinated molecular and structural changes in the course of MGH differentiation and parasitoid encapsulation, providing a mechanistic model for a powerful innate immune response.</description><identifier>ISSN: 1662-811X</identifier><identifier>ISSN: 1662-8128</identifier><identifier>EISSN: 1662-8128</identifier><identifier>DOI: 10.1159/000520110</identifier><identifier>PMID: 34864742</identifier><language>eng</language><publisher>Basel, Switzerland: S. Karger AG</publisher><subject>Drosophila ; Encapsulation ; Gene expression ; Genes ; Health aspects ; Immune response ; Infection ; Innate immunity ; Multinucleated giant hemocyte ; Proteins ; Research Article ; RNA ; RNA sequencing ; Transcriptome ; Wasps</subject><ispartof>Journal of Innate Immunity, 2022, Vol.14 (4), p.335-354</ispartof><rights>2021 The Author(s). Published by S. Karger AG, Basel</rights><rights>COPYRIGHT 2022 S. Karger AG</rights><rights>Copyright © 2021 by The Author(s). Published by S. 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Previously, we showed that circulating MGHs have high motility and the interaction with the parasitoid rapidly triggers encapsulation. However, structural and molecular mechanisms behind these processes remained elusive. Here, we used detailed ultrastructural analysis and live cell imaging of MGHs to study encapsulation in Drosophila ananassae after parasitoid wasp infection. We found dynamic structural changes, mainly driven by the formation of diverse vesicular systems and newly developed complex intracytoplasmic membrane structures, and abundant generation of giant cell exosomes in MGHs. In addition, we used RNA sequencing to study the transcriptomic profile of MGHs and activated plasmatocytes 72 h after infection, as well as the uninduced blood cells. This revealed that differentiation of MGHs was accompanied by broad changes in gene expression. Consistent with the observed structural changes, transcripts related to vesicular function, cytoskeletal organization, and adhesion were enriched in MGHs. In addition, several orphan genes encoding for hemolysin-like proteins, pore-forming toxins of prokaryotic origin, were expressed at high level, which may be important for parasitoid elimination. Our results reveal coordinated molecular and structural changes in the course of MGH differentiation and parasitoid encapsulation, providing a mechanistic model for a powerful innate immune response.</description><subject>Drosophila</subject><subject>Encapsulation</subject><subject>Gene expression</subject><subject>Genes</subject><subject>Health aspects</subject><subject>Immune response</subject><subject>Infection</subject><subject>Innate immunity</subject><subject>Multinucleated giant hemocyte</subject><subject>Proteins</subject><subject>Research Article</subject><subject>RNA</subject><subject>RNA sequencing</subject><subject>Transcriptome</subject><subject>Wasps</subject><issn>1662-811X</issn><issn>1662-8128</issn><issn>1662-8128</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><sourceid>M--</sourceid><sourceid>D8T</sourceid><sourceid>DOA</sourceid><recordid>eNptks9vFSEQxzdGY2v14N0DiRc9vAosuywXk1q1fab-iGmNNzILs6_UXXgCq-lf4b8sdpuXNDEchsz3M18YmKp6yughY416RSltOGWM3qv2WdvyVcd4d3-3Z9_3qkcpXVHaCqHkw2qvFl0rpOD71Z83MYAlF2OOkHKcTZ4jjAS8JecRfDLRbXOYnCHHl-A3mMiFtxhHhyRfIvk4j9n52YwIGS05ceAzOcUpmOtcVLTuJr_2vkSynqbZI_mKaRt8QgIbcD5l8gXK4S4HZ9Pj6sEAY8Int_Ggunj_7vz4dHX2-WR9fHS2Mo3keSWBYa0UyK6VivGeGWtVb9iATPTQKCO56KRUwgrgTW9rqNkgjBmGtrW0wfqgWi--NsCV3kY3QbzWAZy-SYS40RCzK41pi1JykKYeehCi4z3lg6JCcWEbbHtavFaLV_qN27m_4_bWfTu6cZunWTNFOy4L_3rhCzyhNejL4493yu4q3l3qTfilFZcN5aIYvLg1iOHnjCnrySWD4wgew5w0b6msKa85L-jhgm6gtOL8EIqjKcti-dTgcXAlfySZUB2Vsi4FL5cCE0NKEYfdvRjV_6ZN76atsM8W9gfEDcYduZOf_1f-sP60EHprh_ovLOPeFQ</recordid><startdate>2022</startdate><enddate>2022</enddate><creator>Cinege, Gyöngyi</creator><creator>Magyar, Lilla B.</creator><creator>Kovács, Attila L.</creator><creator>Lerner, Zita</creator><creator>Juhász, Gábor</creator><creator>Lukacsovich, David</creator><creator>Winterer, Jochen</creator><creator>Lukacsovich, Tamás</creator><creator>Hegedűs, Zoltán</creator><creator>Kurucz, Éva</creator><creator>Hultmark, Dan</creator><creator>Földy, Csaba</creator><creator>Andó, István</creator><general>S. 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Previously, we showed that circulating MGHs have high motility and the interaction with the parasitoid rapidly triggers encapsulation. However, structural and molecular mechanisms behind these processes remained elusive. Here, we used detailed ultrastructural analysis and live cell imaging of MGHs to study encapsulation in Drosophila ananassae after parasitoid wasp infection. We found dynamic structural changes, mainly driven by the formation of diverse vesicular systems and newly developed complex intracytoplasmic membrane structures, and abundant generation of giant cell exosomes in MGHs. In addition, we used RNA sequencing to study the transcriptomic profile of MGHs and activated plasmatocytes 72 h after infection, as well as the uninduced blood cells. This revealed that differentiation of MGHs was accompanied by broad changes in gene expression. Consistent with the observed structural changes, transcripts related to vesicular function, cytoskeletal organization, and adhesion were enriched in MGHs. In addition, several orphan genes encoding for hemolysin-like proteins, pore-forming toxins of prokaryotic origin, were expressed at high level, which may be important for parasitoid elimination. Our results reveal coordinated molecular and structural changes in the course of MGH differentiation and parasitoid encapsulation, providing a mechanistic model for a powerful innate immune response.</abstract><cop>Basel, Switzerland</cop><pub>S. Karger AG</pub><pmid>34864742</pmid><doi>10.1159/000520110</doi><tpages>20</tpages><orcidid>https://orcid.org/0000-0001-5908-9861</orcidid><orcidid>https://orcid.org/0000-0002-6800-6594</orcidid><orcidid>https://orcid.org/0000-0002-6506-5855</orcidid><oa>free_for_read</oa></addata></record> |
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| source | DOAJ Directory of Open Access Journals; SWEPUB Freely available online; Karger Open Access Journals; EZB-FREE-00999 freely available EZB journals; PubMed Central |
| subjects | Drosophila Encapsulation Gene expression Genes Health aspects Immune response Infection Innate immunity Multinucleated giant hemocyte Proteins Research Article RNA RNA sequencing Transcriptome Wasps |
| title | Broad Ultrastructural and Transcriptomic Changes Underlie the Multinucleated Giant Hemocyte Mediated Innate Immune Response against Parasitoids |
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