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Development of a Novel IgG1 Anaphylaxis Mouse Model with Uniquely Characteristic Skin Manifestations Induced Through the FcγRIII-Histamine Pathway
Studies of passive anaphylaxis, in which mouse immunoglobulin G (IgG) and its antigens are administered to mice, believe that platelet-activating factor (PAF) is more important than histamine and that basophils or macrophages are primarily involved. However, the full extent of IgG-dependent anaphyla...
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| Published in: | Immunological investigations 2023-01, Vol.52 (1), p.83-103 |
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| Language: | English |
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| container_end_page | 103 |
| container_issue | 1 |
| container_start_page | 83 |
| container_title | Immunological investigations |
| container_volume | 52 |
| creator | Terashi, Masato Yamaki, Kouya Koyama, Yutaka |
| description | Studies of passive anaphylaxis, in which mouse immunoglobulin G (IgG) and its antigens are administered to mice, believe that platelet-activating factor (PAF) is more important than histamine and that basophils or macrophages are primarily involved. However, the full extent of IgG-dependent anaphylaxis is still unclear; that is, little agreement has been reached about the mechanism.
First, we established the novel model of IgG
1
anaphylaxis induced by the intravenous administration of two types of IgG
1
and a fluorescent dye-labeled antigen, as IgG
1
immune complex in HR-1 hairless mice. Subsequently, pharmacological analysis was used to investigate the underlying mechanisms of IgG
1
anaphylaxis in this established model.
The novel IgG
1
anaphylaxis model can induce the IgG-induced Anaphylaxis-dependent Spotted Distribution of fluorescently labeled Immune complexes in the Skin, named "G-ASDIS". Moreover, this model was triggered primarily by the FcγRIII-dependent histamine release, which is different from the conventional model in which PAF was involved in the development of IgG
1
anaphylaxis. Basophils in the circulation and mast cells in the skin may participate in the development of IgG
1
anaphylaxis and increased G-ASDIS.
Our results propose that the novel axis, namely the FcγRIII-basophils and/or mast cell-histamine pathway, is important for IgG
1
anaphylaxis. Further analysis of our model in addition to other models will lead to a broader analysis and understanding of the IgG
1
anaphylaxis mechanism. |
| doi_str_mv | 10.1080/08820139.2022.2130799 |
| format | article |
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First, we established the novel model of IgG
1
anaphylaxis induced by the intravenous administration of two types of IgG
1
and a fluorescent dye-labeled antigen, as IgG
1
immune complex in HR-1 hairless mice. Subsequently, pharmacological analysis was used to investigate the underlying mechanisms of IgG
1
anaphylaxis in this established model.
The novel IgG
1
anaphylaxis model can induce the IgG-induced Anaphylaxis-dependent Spotted Distribution of fluorescently labeled Immune complexes in the Skin, named "G-ASDIS". Moreover, this model was triggered primarily by the FcγRIII-dependent histamine release, which is different from the conventional model in which PAF was involved in the development of IgG
1
anaphylaxis. Basophils in the circulation and mast cells in the skin may participate in the development of IgG
1
anaphylaxis and increased G-ASDIS.
Our results propose that the novel axis, namely the FcγRIII-basophils and/or mast cell-histamine pathway, is important for IgG
1
anaphylaxis. Further analysis of our model in addition to other models will lead to a broader analysis and understanding of the IgG
1
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First, we established the novel model of IgG
1
anaphylaxis induced by the intravenous administration of two types of IgG
1
and a fluorescent dye-labeled antigen, as IgG
1
immune complex in HR-1 hairless mice. Subsequently, pharmacological analysis was used to investigate the underlying mechanisms of IgG
1
anaphylaxis in this established model.
The novel IgG
1
anaphylaxis model can induce the IgG-induced Anaphylaxis-dependent Spotted Distribution of fluorescently labeled Immune complexes in the Skin, named "G-ASDIS". Moreover, this model was triggered primarily by the FcγRIII-dependent histamine release, which is different from the conventional model in which PAF was involved in the development of IgG
1
anaphylaxis. Basophils in the circulation and mast cells in the skin may participate in the development of IgG
1
anaphylaxis and increased G-ASDIS.
Our results propose that the novel axis, namely the FcγRIII-basophils and/or mast cell-histamine pathway, is important for IgG
1
anaphylaxis. Further analysis of our model in addition to other models will lead to a broader analysis and understanding of the IgG
1
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First, we established the novel model of IgG
1
anaphylaxis induced by the intravenous administration of two types of IgG
1
and a fluorescent dye-labeled antigen, as IgG
1
immune complex in HR-1 hairless mice. Subsequently, pharmacological analysis was used to investigate the underlying mechanisms of IgG
1
anaphylaxis in this established model.
The novel IgG
1
anaphylaxis model can induce the IgG-induced Anaphylaxis-dependent Spotted Distribution of fluorescently labeled Immune complexes in the Skin, named "G-ASDIS". Moreover, this model was triggered primarily by the FcγRIII-dependent histamine release, which is different from the conventional model in which PAF was involved in the development of IgG
1
anaphylaxis. Basophils in the circulation and mast cells in the skin may participate in the development of IgG
1
anaphylaxis and increased G-ASDIS.
Our results propose that the novel axis, namely the FcγRIII-basophils and/or mast cell-histamine pathway, is important for IgG
1
anaphylaxis. Further analysis of our model in addition to other models will lead to a broader analysis and understanding of the IgG
1
anaphylaxis mechanism.</abstract><pub>Taylor & Francis</pub><doi>10.1080/08820139.2022.2130799</doi><tpages>21</tpages></addata></record> |
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| ispartof | Immunological investigations, 2023-01, Vol.52 (1), p.83-103 |
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| language | eng |
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| source | Taylor and Francis:Jisc Collections:Taylor and Francis Read and Publish Agreement 2024-2025:Medical Collection (Reading list) |
| subjects | Anaphylaxis basophils histamine immunoglobulin G mice |
| title | Development of a Novel IgG1 Anaphylaxis Mouse Model with Uniquely Characteristic Skin Manifestations Induced Through the FcγRIII-Histamine Pathway |
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