CD4+ T-cell epitopes associated with antibody responses after intravenously and subcutaneously applied human FVIII in humanized hemophilic E17 HLA-DRB11501 mice
Today it is generally accepted that B cells require cognate interactions with CD4+ T cells to develop high-affinity antibodies against proteins. CD4+ T cells recognize peptides (epitopes) presented by MHC class II molecules that are expressed on antigen-presenting cells. Structural features of both...
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| Published in | Blood Vol. 119; no. 17; pp. 4073 - 4082 |
|---|---|
| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Washington, DC
Elsevier Inc
26.04.2012
Americain Society of Hematology |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0006-4971 1528-0020 1528-0020 |
| DOI | 10.1182/blood-2011-08-374645 |
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| Abstract | Today it is generally accepted that B cells require cognate interactions with CD4+ T cells to develop high-affinity antibodies against proteins. CD4+ T cells recognize peptides (epitopes) presented by MHC class II molecules that are expressed on antigen-presenting cells. Structural features of both the MHC class II molecule and the peptide determine the specificity of CD4+ T cells that can bind to the MHC class II–peptide complex. We used a new humanized hemophilic mouse model to identify FVIII peptides presented by HLA-DRB1*1501. This model carries a knockout of all murine MHC class II molecules and expresses a chimeric murine-human MHC class II complex that contains the peptide-binding sites of the human HLA-DRB1*1501. When mice were treated with human FVIII, the proportion of mice that developed antibodies depended on the application route of FVIII and the activation state of the innate immune system. We identified 8 FVIII peptide regions that contained CD4+ T-cell epitopes presented by HLA-DRB1*1501 to CD4+ T cells during immune responses against FVIII. CD4+ T-cell responses after intravenous and subcutaneous application of FVIII involved the same immunodominant FVIII epitopes. Interestingly, most of the 8 peptide regions contained promiscuous epitopes that bound to several different HLA-DR proteins in in vitro binding assays. |
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| AbstractList | Today it is generally accepted that B cells require cognate interactions with CD4+ T cells to develop high-affinity antibodies against proteins. CD4+ T cells recognize peptides (epitopes) presented by MHC class II molecules that are expressed on antigen-presenting cells. Structural features of both the MHC class II molecule and the peptide determine the specificity of CD4+ T cells that can bind to the MHC class II–peptide complex. We used a new humanized hemophilic mouse model to identify FVIII peptides presented by HLA-DRB1*1501. This model carries a knockout of all murine MHC class II molecules and expresses a chimeric murine-human MHC class II complex that contains the peptide-binding sites of the human HLA-DRB1*1501. When mice were treated with human FVIII, the proportion of mice that developed antibodies depended on the application route of FVIII and the activation state of the innate immune system. We identified 8 FVIII peptide regions that contained CD4+ T-cell epitopes presented by HLA-DRB1*1501 to CD4+ T cells during immune responses against FVIII. CD4+ T-cell responses after intravenous and subcutaneous application of FVIII involved the same immunodominant FVIII epitopes. Interestingly, most of the 8 peptide regions contained promiscuous epitopes that bound to several different HLA-DR proteins in in vitro binding assays. Today it is generally accepted that B cells require cognate interactions with CD4(+) T cells to develop high-affinity antibodies against proteins. CD4(+) T cells recognize peptides (epitopes) presented by MHC class II molecules that are expressed on antigen-presenting cells. Structural features of both the MHC class II molecule and the peptide determine the specificity of CD4(+) T cells that can bind to the MHC class II-peptide complex. We used a new humanized hemophilic mouse model to identify FVIII peptides presented by HLA-DRB1*1501. This model carries a knockout of all murine MHC class II molecules and expresses a chimeric murine-human MHC class II complex that contains the peptide-binding sites of the human HLA-DRB1*1501. When mice were treated with human FVIII, the proportion of mice that developed antibodies depended on the application route of FVIII and the activation state of the innate immune system. We identified 8 FVIII peptide regions that contained CD4(+) T-cell epitopes presented by HLA-DRB1*1501 to CD4(+) T cells during immune responses against FVIII. CD4(+) T-cell responses after intravenous and subcutaneous application of FVIII involved the same immunodominant FVIII epitopes. Interestingly, most of the 8 peptide regions contained promiscuous epitopes that bound to several different HLA-DR proteins in in vitro binding assays.Today it is generally accepted that B cells require cognate interactions with CD4(+) T cells to develop high-affinity antibodies against proteins. CD4(+) T cells recognize peptides (epitopes) presented by MHC class II molecules that are expressed on antigen-presenting cells. Structural features of both the MHC class II molecule and the peptide determine the specificity of CD4(+) T cells that can bind to the MHC class II-peptide complex. We used a new humanized hemophilic mouse model to identify FVIII peptides presented by HLA-DRB1*1501. This model carries a knockout of all murine MHC class II molecules and expresses a chimeric murine-human MHC class II complex that contains the peptide-binding sites of the human HLA-DRB1*1501. When mice were treated with human FVIII, the proportion of mice that developed antibodies depended on the application route of FVIII and the activation state of the innate immune system. We identified 8 FVIII peptide regions that contained CD4(+) T-cell epitopes presented by HLA-DRB1*1501 to CD4(+) T cells during immune responses against FVIII. CD4(+) T-cell responses after intravenous and subcutaneous application of FVIII involved the same immunodominant FVIII epitopes. Interestingly, most of the 8 peptide regions contained promiscuous epitopes that bound to several different HLA-DR proteins in in vitro binding assays. Today it is generally accepted that B cells require cognate interactions with CD4 + T cells to develop high-affinity antibodies against proteins. CD4 + T cells recognize peptides (epitopes) presented by MHC class II molecules that are expressed on antigen-presenting cells. Structural features of both the MHC class II molecule and the peptide determine the specificity of CD4 + T cells that can bind to the MHC class II-peptide complex. We used a new humanized hemophilic mouse model to identify FVIII peptides presented by HLA-DRB1*1501. This model carries a knock-out of all murine MHC class II molecules and expresses a chimeric murine-human MHC class II complex that contains the peptide-binding sites of the human HLA-DRB1*1501. When mice were treated with human FVIII, the proportion of mice that developed antibodies depended on the application route of FVIII and the activation state of the innate immune system. We identified 8 FVIII peptide regions that contained CD4 + T-cell epitopes presented by HLA-DRB1*1501 to CD4 + T cells during immune responses against FVIII. CD4 + T-cell responses after intravenous and subcutaneous application of FVIII involved the same immunodominant FVIII epitopes. Interestingly, most of the 8 peptide regions contained promiscuous epitopes that bound to several different HLA-DR proteins in in vitro binding assays. |
| Author | Unterthurner, Sabine Schuster, Maria Wraith, David C. van Helden, Pauline M. Binder, Brigitte Steinitz, Katharina N. Ahmad, Rafi U. Schwarz, Hans Peter Hermann, Corinna Lubich, Christian Reipert, Birgit M. de la Rosa, Maurus Weiller, Markus |
| AuthorAffiliation | 1 Baxter BioScience, Vienna, Austria 2 University of Bristol, Bristol, United Kingdom |
| AuthorAffiliation_xml | – name: 1 Baxter BioScience, Vienna, Austria – name: 2 University of Bristol, Bristol, United Kingdom |
| Author_xml | – sequence: 1 givenname: Katharina N. surname: Steinitz fullname: Steinitz, Katharina N. organization: Baxter BioScience, Vienna, Austria – sequence: 2 givenname: Pauline M. surname: van Helden fullname: van Helden, Pauline M. organization: Baxter BioScience, Vienna, Austria – sequence: 3 givenname: Brigitte surname: Binder fullname: Binder, Brigitte organization: Baxter BioScience, Vienna, Austria – sequence: 4 givenname: David C. surname: Wraith fullname: Wraith, David C. organization: University of Bristol, Bristol, United Kingdom – sequence: 5 givenname: Sabine surname: Unterthurner fullname: Unterthurner, Sabine organization: Baxter BioScience, Vienna, Austria – sequence: 6 givenname: Corinna surname: Hermann fullname: Hermann, Corinna organization: Baxter BioScience, Vienna, Austria – sequence: 7 givenname: Maria surname: Schuster fullname: Schuster, Maria organization: Baxter BioScience, Vienna, Austria – sequence: 8 givenname: Rafi U. surname: Ahmad fullname: Ahmad, Rafi U. organization: Baxter BioScience, Vienna, Austria – sequence: 9 givenname: Markus surname: Weiller fullname: Weiller, Markus organization: Baxter BioScience, Vienna, Austria – sequence: 10 givenname: Christian surname: Lubich fullname: Lubich, Christian organization: Baxter BioScience, Vienna, Austria – sequence: 11 givenname: Maurus surname: de la Rosa fullname: de la Rosa, Maurus organization: Baxter BioScience, Vienna, Austria – sequence: 12 givenname: Hans Peter surname: Schwarz fullname: Schwarz, Hans Peter organization: Baxter BioScience, Vienna, Austria – sequence: 13 givenname: Birgit M. surname: Reipert fullname: Reipert, Birgit M. email: birgit_reipert@baxter.com organization: Baxter BioScience, Vienna, Austria |
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| Copyright | 2012 American Society of Hematology 2015 INIST-CNRS Copyright 2011 by The American Society of Hematology; all rights reserved. 2011 2012 |
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| Keywords | Human CD4 T lymphocyte Immune response Intravenous administration Antigenic determinant Hematology Antibody Rodentia Factor VIII Hemopathy HLA-DR-Locus Genetic disease Vertebrata Mammalia Mouse Animal Hemophilia Coagulopathy Humoral immunity |
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| Score | 2.322626 |
| Snippet | Today it is generally accepted that B cells require cognate interactions with CD4+ T cells to develop high-affinity antibodies against proteins. CD4+ T cells... Today it is generally accepted that B cells require cognate interactions with CD4(+) T cells to develop high-affinity antibodies against proteins. CD4(+) T... Today it is generally accepted that B cells require cognate interactions with CD4 + T cells to develop high-affinity antibodies against proteins. CD4 + T cells... |
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| SubjectTerms | Animals Antibody Formation - immunology Antigen Presentation Biological and medical sciences CD4-Positive T-Lymphocytes - immunology CD4-Positive T-Lymphocytes - metabolism Dendritic Cells - cytology Dendritic Cells - immunology Dendritic Cells - metabolism Disease Models, Animal Epitopes, T-Lymphocyte - immunology Factor VIII - administration & dosage Factor VIII - immunology Haplotypes - genetics Hematologic and hematopoietic diseases Hemophilia A - immunology Hemophilia A - metabolism Hemophilia A - pathology HLA-DRB1 Chains - immunology HLA-DRB1 Chains - metabolism Humans Injections, Intravenous Injections, Subcutaneous Male Medical sciences Mice Platelet diseases and coagulopathies Recombinant Proteins - administration & dosage Recombinant Proteins - genetics Recombinant Proteins - metabolism |
| Title | CD4+ T-cell epitopes associated with antibody responses after intravenously and subcutaneously applied human FVIII in humanized hemophilic E17 HLA-DRB11501 mice |
| URI | https://dx.doi.org/10.1182/blood-2011-08-374645 https://www.ncbi.nlm.nih.gov/pubmed/22394599 https://www.proquest.com/docview/1010232448 https://pubmed.ncbi.nlm.nih.gov/PMC3986681 |
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