A novel model for treatment of hypertrophic pachymeningitis

Objective Immunoglobulin (Ig)G4‐related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater. HP lacks an animal model to determine its underlying mechanisms. We developed a suitable animal model for the treatment of HP. Methods We l...

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Published inAnnals of clinical and translational neurology Vol. 6; no. 3; pp. 431 - 444
Main Authors Cui, Yiwen, Masaki, Katsuhisa, Zhang, Xu, Yamasaki, Ryo, Fujii, Takayuki, Ogata, Hidenori, Hayashida, Shotaro, Yamaguchi, Hiroo, Hyodo, Fuminori, Eto, Hinako, Koyama, Sachiko, Iinuma, Kyoko, Yonekawa, Tomomi, Matsushita, Takuya, Yoshida, Mari, Yamada, Kazunori, Kawano, Mitsuhiro, Malissen, Marie, Malissen, Bernard, Kira, Junichi
Format Journal Article
LanguageEnglish
Published United States John Wiley & Sons, Inc 01.03.2019
Wiley
John Wiley and Sons Inc
Subjects
Adaptor Proteins, Signal Transducing - deficiency
Animals
Cytokines
Disease
Dura Mater - drug effects
Dura Mater - immunology
Dura Mater - pathology
Fibrosis
Grants
Human subjects
Humans
Hypertrophy
Immunoglobulins
Immunology
Inflammation
Irbesartan - pharmacology
Laboratory animals
Life Sciences
Lymphocytes
Medical research
Membrane Proteins - deficiency
Meningitis - drug therapy
Meningitis - metabolism
Meningitis - physiopathology
Mice
Mice, Transgenic
Models, Animal
Pharmaceuticals
Phosphorylation
Rodents
Science
Signal Transduction
Smad2 Protein - metabolism
Smad3 Protein - metabolism
Spinal cord
Transforming Growth Factor beta1 - metabolism
Japan
Online AccessGet full text
ISSN2328-9503
2328-9503
DOI10.1002/acn3.715

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Abstract Objective Immunoglobulin (Ig)G4‐related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater. HP lacks an animal model to determine its underlying mechanisms. We developed a suitable animal model for the treatment of HP. Methods We longitudinally evaluated dura in mice with a mutation (Y136F) in the linker for activation of T cells (LAT), which induced type 2 T helper (Th2) cell proliferation and IgG1 (IgG4 human equivalent) overexpression. Mice were therapeutically administered daily oral irbesartan from 3 to 6 weeks of age. Human IgG4‐related, anti‐neutrophil cytoplasmic antibody‐related, and idiopathic HP dura were also immunohistochemically examined. Results LATY136F mice showing dural gadolinium enhancement on magnetic resonance imaging had massive infiltration of B220+ B cells, IgG1+ cells, CD138+ plasma cells, CD3+ T cells, F4/80+ macrophages, and polymorphonuclear leukocytes in the dura at 3 weeks of age, followed by marked fibrotic thickening. In dural lesions, transforming growth factor (TGF)‐β1 was produced preferentially in B cells and macrophages while TGF‐β receptor I (TGF‐βRI) was markedly upregulated on fibroblasts. Quantitative western blotting revealed significant upregulation of TGF‐β1, TGF‐βRI, and phosphorylated SMAD2/SMAD3 in dura of LATY136F mice aged 13 weeks. A similar upregulation of TGF‐βRI, SMAD2/SMAD3, and phosphorylated SMAD2/SMAD3 was present in autopsied dura of all three types of human HP. Irbesartan abolished dural inflammatory cell infiltration and fibrotic thickening in all treated LATY136F mice with reduced TGF‐β1 and nonphosphorylated and phosphorylated SMAD2/SMAD3. Interpretation TGF‐β1/SMAD2/SMAD3 pathway is critical in HP and is a potential novel therapeutic target.
AbstractList ObjectiveImmunoglobulin (Ig)G4‐related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater. HP lacks an animal model to determine its underlying mechanisms. We developed a suitable animal model for the treatment of HP.MethodsWe longitudinally evaluated dura in mice with a mutation (Y136F) in the linker for activation of T cells (LAT), which induced type 2 T helper (Th2) cell proliferation and IgG1 (IgG4 human equivalent) overexpression. Mice were therapeutically administered daily oral irbesartan from 3 to 6 weeks of age. Human IgG4‐related, anti‐neutrophil cytoplasmic antibody‐related, and idiopathic HP dura were also immunohistochemically examined.ResultsLATY136F mice showing dural gadolinium enhancement on magnetic resonance imaging had massive infiltration of B220+ B cells, IgG1+ cells, CD138+ plasma cells, CD3+ T cells, F4/80+ macrophages, and polymorphonuclear leukocytes in the dura at 3 weeks of age, followed by marked fibrotic thickening. In dural lesions, transforming growth factor (TGF)‐β1 was produced preferentially in B cells and macrophages while TGF‐β receptor I (TGF‐βRI) was markedly upregulated on fibroblasts. Quantitative western blotting revealed significant upregulation of TGF‐β1, TGF‐βRI, and phosphorylated SMAD2/SMAD3 in dura of LATY136F mice aged 13 weeks. A similar upregulation of TGF‐βRI, SMAD2/SMAD3, and phosphorylated SMAD2/SMAD3 was present in autopsied dura of all three types of human HP. Irbesartan abolished dural inflammatory cell infiltration and fibrotic thickening in all treated LATY136F mice with reduced TGF‐β1 and nonphosphorylated and phosphorylated SMAD2/SMAD3.InterpretationTGF‐β1/SMAD2/SMAD3 pathway is critical in HP and is a potential novel therapeutic target.
Objective Immunoglobulin (Ig)G4-related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater. HP lacks an animal model to determine its underlying mechanisms. We developed a suitable animal model for the treatment of HP. Methods We longitudinally evaluated dura in mice with a mutation (Y136F) in the linker for activation of T cells (LAT), which induced type 2 T helper (Th2) cell proliferation and IgG1 (IgG4 human equivalent) overexpression. Mice were therapeutically administered daily oral irbesartan from 3 to 6 weeks of age. Human IgG4-related, anti-neutrophil cytoplasmic antibody-related, and idiopathic HP dura were also immunohistochemically examined. Results LATY136F mice showing dural gadolinium enhancement on magnetic resonance imaging had massive infiltration of B220(+) B cells, IgG1(+) cells, CD138(+) plasma cells, CD3(+) T cells, F4/80(+) macrophages, and polymorphonuclear leukocytes in the dura at 3 weeks of age, followed by marked fibrotic thickening. In dural lesions, transforming growth factor (TGF)-beta 1 was produced preferentially in B cells and macrophages while TGF-beta receptor I (TGF-beta RI) was markedly upregulated on fibroblasts. Quantitative western blotting revealed significant upregulation of TGF-beta 1, TGF-beta RI, and phosphorylated SMAD2/SMAD3 in dura of LATY136F mice aged 13 weeks. A similar upregulation of TGF-beta RI, SMAD2/SMAD3, and phosphorylated SMAD2/SMAD3 was present in autopsied dura of all three types of human HP. Irbesartan abolished dural inflammatory cell infiltration and fibrotic thickening in all treated LATY136F mice with reduced TGF-beta 1 and nonphosphorylated and phosphorylated SMAD2/SMAD3. Interpretation TGF-beta 1/SMAD2/SMAD3 pathway is critical in HP and is a potential novel therapeutic target.
Immunoglobulin (Ig)G4-related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater. HP lacks an animal model to determine its underlying mechanisms. We developed a suitable animal model for the treatment of HP.ObjectiveImmunoglobulin (Ig)G4-related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater. HP lacks an animal model to determine its underlying mechanisms. We developed a suitable animal model for the treatment of HP.We longitudinally evaluated dura in mice with a mutation (Y136F) in the linker for activation of T cells (LAT), which induced type 2 T helper (Th2) cell proliferation and IgG1 (IgG4 human equivalent) overexpression. Mice were therapeutically administered daily oral irbesartan from 3 to 6 weeks of age. Human IgG4-related, anti-neutrophil cytoplasmic antibody-related, and idiopathic HP dura were also immunohistochemically examined.MethodsWe longitudinally evaluated dura in mice with a mutation (Y136F) in the linker for activation of T cells (LAT), which induced type 2 T helper (Th2) cell proliferation and IgG1 (IgG4 human equivalent) overexpression. Mice were therapeutically administered daily oral irbesartan from 3 to 6 weeks of age. Human IgG4-related, anti-neutrophil cytoplasmic antibody-related, and idiopathic HP dura were also immunohistochemically examined.LATY136F mice showing dural gadolinium enhancement on magnetic resonance imaging had massive infiltration of B220+ B cells, IgG1+ cells, CD138+ plasma cells, CD3+ T cells, F4/80+ macrophages, and polymorphonuclear leukocytes in the dura at 3 weeks of age, followed by marked fibrotic thickening. In dural lesions, transforming growth factor (TGF)-β1 was produced preferentially in B cells and macrophages while TGF-β receptor I (TGF-β RI) was markedly upregulated on fibroblasts. Quantitative western blotting revealed significant upregulation of TGF-β1, TGF-β RI, and phosphorylated SMAD2/SMAD3 in dura of LATY136F mice aged 13 weeks. A similar upregulation of TGF-β RI, SMAD2/SMAD3, and phosphorylated SMAD2/SMAD3 was present in autopsied dura of all three types of human HP. Irbesartan abolished dural inflammatory cell infiltration and fibrotic thickening in all treated LATY136F mice with reduced TGF-β1 and nonphosphorylated and phosphorylated SMAD2/SMAD3.ResultsLATY136F mice showing dural gadolinium enhancement on magnetic resonance imaging had massive infiltration of B220+ B cells, IgG1+ cells, CD138+ plasma cells, CD3+ T cells, F4/80+ macrophages, and polymorphonuclear leukocytes in the dura at 3 weeks of age, followed by marked fibrotic thickening. In dural lesions, transforming growth factor (TGF)-β1 was produced preferentially in B cells and macrophages while TGF-β receptor I (TGF-β RI) was markedly upregulated on fibroblasts. Quantitative western blotting revealed significant upregulation of TGF-β1, TGF-β RI, and phosphorylated SMAD2/SMAD3 in dura of LATY136F mice aged 13 weeks. A similar upregulation of TGF-β RI, SMAD2/SMAD3, and phosphorylated SMAD2/SMAD3 was present in autopsied dura of all three types of human HP. Irbesartan abolished dural inflammatory cell infiltration and fibrotic thickening in all treated LATY136F mice with reduced TGF-β1 and nonphosphorylated and phosphorylated SMAD2/SMAD3.TGF-β1/SMAD2/SMAD3 pathway is critical in HP and is a potential novel therapeutic target.InterpretationTGF-β1/SMAD2/SMAD3 pathway is critical in HP and is a potential novel therapeutic target.
Objective Immunoglobulin (Ig)G4‐related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater. HP lacks an animal model to determine its underlying mechanisms. We developed a suitable animal model for the treatment of HP. Methods We longitudinally evaluated dura in mice with a mutation (Y136F) in the linker for activation of T cells (LAT), which induced type 2 T helper (Th2) cell proliferation and IgG1 (IgG4 human equivalent) overexpression. Mice were therapeutically administered daily oral irbesartan from 3 to 6 weeks of age. Human IgG4‐related, anti‐neutrophil cytoplasmic antibody‐related, and idiopathic HP dura were also immunohistochemically examined. Results LATY136F mice showing dural gadolinium enhancement on magnetic resonance imaging had massive infiltration of B220+ B cells, IgG1+ cells, CD138+ plasma cells, CD3+ T cells, F4/80+ macrophages, and polymorphonuclear leukocytes in the dura at 3 weeks of age, followed by marked fibrotic thickening. In dural lesions, transforming growth factor (TGF)‐β1 was produced preferentially in B cells and macrophages while TGF‐β receptor I (TGF‐βRI) was markedly upregulated on fibroblasts. Quantitative western blotting revealed significant upregulation of TGF‐β1, TGF‐βRI, and phosphorylated SMAD2/SMAD3 in dura of LATY136F mice aged 13 weeks. A similar upregulation of TGF‐βRI, SMAD2/SMAD3, and phosphorylated SMAD2/SMAD3 was present in autopsied dura of all three types of human HP. Irbesartan abolished dural inflammatory cell infiltration and fibrotic thickening in all treated LATY136F mice with reduced TGF‐β1 and nonphosphorylated and phosphorylated SMAD2/SMAD3. Interpretation TGF‐β1/SMAD2/SMAD3 pathway is critical in HP and is a potential novel therapeutic target.
Immunoglobulin (Ig)G4-related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater. HP lacks an animal model to determine its underlying mechanisms. We developed a suitable animal model for the treatment of HP. We longitudinally evaluated dura in mice with a mutation (Y136F) in the linker for activation of T cells (LAT), which induced type 2 T helper (Th2) cell proliferation and IgG1 (IgG4 human equivalent) overexpression. Mice were therapeutically administered daily oral irbesartan from 3 to 6 weeks of age. Human IgG4-related, anti-neutrophil cytoplasmic antibody-related, and idiopathic HP dura were also immunohistochemically examined. LATY136F mice showing dural gadolinium enhancement on magnetic resonance imaging had massive infiltration of B220 B cells, IgG1 cells, CD138 plasma cells, CD3 T cells, F4/80 macrophages, and polymorphonuclear leukocytes in the dura at 3 weeks of age, followed by marked fibrotic thickening. In dural lesions, transforming growth factor (TGF)- 1 was produced preferentially in B cells and macrophages while TGF-β receptor I (TGF- RI) was markedly upregulated on fibroblasts. Quantitative western blotting revealed significant upregulation of TGF- 1, TGF- RI, and phosphorylated SMAD2/SMAD3 in dura of LATY136F mice aged 13 weeks. A similar upregulation of TGF- RI, SMAD2/SMAD3, and phosphorylated SMAD2/SMAD3 was present in autopsied dura of all three types of human HP. Irbesartan abolished dural inflammatory cell infiltration and fibrotic thickening in all treated LATY136F mice with reduced TGF-β1 and nonphosphorylated and phosphorylated SMAD2/SMAD3. TGF- 1/SMAD2/SMAD3 pathway is critical in HP and is a potential novel therapeutic target.
Author Kawano, Mitsuhiro
Eto, Hinako
Zhang, Xu
Yamasaki, Ryo
Yonekawa, Tomomi
Malissen, Bernard
Ogata, Hidenori
Yamaguchi, Hiroo
Malissen, Marie
Hayashida, Shotaro
Fujii, Takayuki
Yamada, Kazunori
Cui, Yiwen
Koyama, Sachiko
Kira, Junichi
Matsushita, Takuya
Hyodo, Fuminori
Yoshida, Mari
Iinuma, Kyoko
Masaki, Katsuhisa
AuthorAffiliation 3 Department of Neurological Therapeutics Neurological Institute Graduate School of Medical Sciences Kyushu University Fukuoka Japan
6 Division of Rheumatology Department of Internal Medicine Kanazawa University Graduate School of Medicine Kanazawa Japan
2 Innovation Center for Medical Redox Navigation Kyushu University Fukuoka Japan
5 Department of Advanced Research in Community Medicine Graduate School of Medical Sciences Kanazawa University Kanazawa Japan
4 Department of Neuropathology Institute for Medical Science of Aging Aichi Medical University Nagakute Aichi Japan
1 Department of Neurology Neurological Institute Graduate School of Medical Sciences Kyushu University Fukuoka Japan
7 Centre d'Immunologie de Marseille‐Luminy Aix Marseille Université INSERM CNRS Marseille 13288 France
AuthorAffiliation_xml – name: 7 Centre d'Immunologie de Marseille‐Luminy Aix Marseille Université INSERM CNRS Marseille 13288 France
– name: 4 Department of Neuropathology Institute for Medical Science of Aging Aichi Medical University Nagakute Aichi Japan
– name: 5 Department of Advanced Research in Community Medicine Graduate School of Medical Sciences Kanazawa University Kanazawa Japan
– name: 2 Innovation Center for Medical Redox Navigation Kyushu University Fukuoka Japan
– name: 6 Division of Rheumatology Department of Internal Medicine Kanazawa University Graduate School of Medicine Kanazawa Japan
– name: 3 Department of Neurological Therapeutics Neurological Institute Graduate School of Medical Sciences Kyushu University Fukuoka Japan
– name: 1 Department of Neurology Neurological Institute Graduate School of Medical Sciences Kyushu University Fukuoka Japan
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  organization: Kyushu University
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  organization: Kyushu University
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This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
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PMCID: PMC6414490
These authors contributed equally to this work.
This study was supported in part by a Health and Labour Sciences Research Grant on Intractable Diseases (H26‐Nanchitou (Nan)‐Ippan‐074) from the Ministry of Health, Labour and Welfare, Japan (J.K.); the Practical Research Project for Rare/Intractable Diseases from the Japan Agency for Medical Research and Development (AMED) (J.K.); a “Glial assembly” Grant‐in‐Aid for Scientific Research on Innovative Areas (MEXT KAKENHI Grant Numbers 25117001 and 25117012) from the Ministry of Education, Culture, Sports, Science and Technology of Japan (J.K.); JSPS KAKENHI Grants‐in‐Aid for Scientific Research (A) (Grant Number 16H02657) (J.K.), (C) (Grant Number 16K09694) (R.Y.), and (C) (Grant Number 26461295) (K.M.) from the Japan Society for the Promotion of Science, and CNRS and INSERM (B.M. and M.M.).
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Snippet Objective Immunoglobulin (Ig)G4‐related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura...
Immunoglobulin (Ig)G4-related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater. HP lacks...
ObjectiveImmunoglobulin (Ig)G4‐related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura mater....
Objective Immunoglobulin (Ig)G4-related disease is a major cause of hypertrophic pachymeningitis (HP), presenting as a progressive thickening of the dura...
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SubjectTerms Adaptor Proteins, Signal Transducing - deficiency
Animals
Cytokines
Disease
Dura Mater - drug effects
Dura Mater - immunology
Dura Mater - pathology
Fibrosis
Grants
Human subjects
Humans
Hypertrophy
Immunoglobulins
Immunology
Inflammation
Irbesartan - pharmacology
Laboratory animals
Life Sciences
Lymphocytes
Medical research
Membrane Proteins - deficiency
Meningitis - drug therapy
Meningitis - metabolism
Meningitis - physiopathology
Mice
Mice, Transgenic
Models, Animal
Pharmaceuticals
Phosphorylation
Rodents
Science
Signal Transduction
Smad2 Protein - metabolism
Smad3 Protein - metabolism
Spinal cord
Transforming Growth Factor beta1 - metabolism
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Title A novel model for treatment of hypertrophic pachymeningitis
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