Molecular basis for the MHC class II association in rat experimental autoimmune encephalomyelitis
Author: de Graaf, Katrien L
Date: 2001-06-15
Location: Hörsalen vid Centrum för Molekylär Medicin, Karolinska Sjukhuset
Time: 9.00
Department: Institutionen för medicin / Department of Medicine
Abstract
This thesis investigates the functional and structural aspects of rat MHC
class 11 molecules and studies their influence on MBP- and MOG-peptide
induced experimental autoimmune encephalomylitis (EAE) in LEW MHC
congenic rat strains. EAE is an animal model for multiple sclerosis (MS)
and can be induced in rats with components of the myelin sheath . As in
MS, the MHC exerts a strong influence on the susceptibility or the
resistance to EAE.
We established an ELISA-based MHC class 11 peptide binding assay, which allowed us to determine in vitro what myelin peptides bind to different allelic variants of purified rat MHC class 11 molecules. We found that differences in disease susceptibility to certain MBP peptides observed in the different rat strains were partially reflected in the allelic diversity of the peptide binding profiles. Although intermediate to strong binding of MBP and MOG peptides to the restricting MHC class 11 molecule was a prerequisite, it was only one of the many requirements to be met in order for a peptide to be encephalitogenic.
We also used the peptide binding ELISA in conjunction with combinatorial peptide libraries to study the peptide binding pattern of the RT1.Dn molecule. To our knowledge, this is the first description of the peptide binding properties of a rat DR-like molecule.
We studied the requirements for dominant expression of TCRBV8S2 in LEW rats after immunization with MBP63-88. We found that the preferential recruitment of TCRVB38S2+ T cells was strictly dependent on MHC haplotype and on the heterologous origin of the peptide. Moreover, by varying the peptide of immunization and thus, the pathogenic T-cell repertoire, we could show that the suppressive effect of naked DNA vaccination was highly specific.
Beside DNA vaccination, we tested three more approaches targeting the trimolecular complex in order to treat or to prevent EAE: T-cell depletion with a TCRBV8S2 specific monoclonal antibody, nasal tolerance and coimmunization with a high affinity MHC class 11 ligand all led to suppression of EAE.
In MOG-peptide induced EAE, we demonstrated a lack of correlation between 1) immunodominance and encephalitogenicity. Instead, in LEW.1N rats, the cryptic MOG 91-108 epitope was disease driving. Immunogenic responses against this peptide were only detectable in the CNS, underscoring the importance of analyzing immune responses in the target organ 2) immunogenicity and encephalitogenicity i.e. some immunodominant MOG peptides raised a peripheral IFN-gamma response accompanied by a B-cell response without causing encephalitogenicity.
In conclusions, these studies suggest that efficient binding and presentation of an encephalitogen by its restricting MHC molecule in the peripheral lymphoid tissue undoubtedly plays an fundamental role in the initiation of the autoimmune response. But the influence of the MHC on the T-cell repertoire, both in selecting potentially encephalitogenic T cells as well as in the selection of a regulatory repertoire might also have an enormous impact on the development of autoimmune disease.
We established an ELISA-based MHC class 11 peptide binding assay, which allowed us to determine in vitro what myelin peptides bind to different allelic variants of purified rat MHC class 11 molecules. We found that differences in disease susceptibility to certain MBP peptides observed in the different rat strains were partially reflected in the allelic diversity of the peptide binding profiles. Although intermediate to strong binding of MBP and MOG peptides to the restricting MHC class 11 molecule was a prerequisite, it was only one of the many requirements to be met in order for a peptide to be encephalitogenic.
We also used the peptide binding ELISA in conjunction with combinatorial peptide libraries to study the peptide binding pattern of the RT1.Dn molecule. To our knowledge, this is the first description of the peptide binding properties of a rat DR-like molecule.
We studied the requirements for dominant expression of TCRBV8S2 in LEW rats after immunization with MBP63-88. We found that the preferential recruitment of TCRVB38S2+ T cells was strictly dependent on MHC haplotype and on the heterologous origin of the peptide. Moreover, by varying the peptide of immunization and thus, the pathogenic T-cell repertoire, we could show that the suppressive effect of naked DNA vaccination was highly specific.
Beside DNA vaccination, we tested three more approaches targeting the trimolecular complex in order to treat or to prevent EAE: T-cell depletion with a TCRBV8S2 specific monoclonal antibody, nasal tolerance and coimmunization with a high affinity MHC class 11 ligand all led to suppression of EAE.
In MOG-peptide induced EAE, we demonstrated a lack of correlation between 1) immunodominance and encephalitogenicity. Instead, in LEW.1N rats, the cryptic MOG 91-108 epitope was disease driving. Immunogenic responses against this peptide were only detectable in the CNS, underscoring the importance of analyzing immune responses in the target organ 2) immunogenicity and encephalitogenicity i.e. some immunodominant MOG peptides raised a peripheral IFN-gamma response accompanied by a B-cell response without causing encephalitogenicity.
In conclusions, these studies suggest that efficient binding and presentation of an encephalitogen by its restricting MHC molecule in the peripheral lymphoid tissue undoubtedly plays an fundamental role in the initiation of the autoimmune response. But the influence of the MHC on the T-cell repertoire, both in selecting potentially encephalitogenic T cells as well as in the selection of a regulatory repertoire might also have an enormous impact on the development of autoimmune disease.
List of papers:
I. de Graaf KL, Weissert R, Kjellen P, Holmdahl R, Olsson T (1999). "Allelic variations in rat MHC class II binding of myelin basic protein peptides correlate with encephalitogenicity. " Int Immunol 11(12): 1981-8
Pubmed
II. Weissert R, Svenningsson A, Lobell A, de Graaf KL, Andersson R, Olsson T (1998). "Molecular and genetic requirements for preferential recruitment of TCRBV8S2+ T cells in Lewis rat experimental autoimmune encephalomyelitis. " J Immunol 160(2): 681-90
Pubmed
III. Weissert R, Lobell A, de Graaf KL, Eltayeb SY, Andersson R, Olsson T, Wigzell H (2000). "Protective DNA vaccination against organ-specific autoimmunity is highly specific and discriminates between single amino acid substitutions in the peptide autoantigen" Proc Natl Acad Sci U S A 97(4): 1689-94
Pubmed
IV. Weissert R, de Graaf KL, Storch MK, Barth S, Linington C, Lassman H, Olsson T (2001). "MHC class II-regulated central nervous system autoaggression and T cell responses in peripheral lymphoid organs are dissociated in myelin oligodendrocyte glycoprotein-induced experimental autoimmune encephalomyelitis." J Immunol (Accepted)
V. de Graaf KL, Fleckenstein B, Olsson T, Melms A, Wiesmuller KH, Weissert R (2001). "Prevention of experimental autoimmune encephalomyelitis by a rationally designed synthetic RT1.Dn nonapeptide ligand." (Manuscript)
I. de Graaf KL, Weissert R, Kjellen P, Holmdahl R, Olsson T (1999). "Allelic variations in rat MHC class II binding of myelin basic protein peptides correlate with encephalitogenicity. " Int Immunol 11(12): 1981-8
Pubmed
II. Weissert R, Svenningsson A, Lobell A, de Graaf KL, Andersson R, Olsson T (1998). "Molecular and genetic requirements for preferential recruitment of TCRBV8S2+ T cells in Lewis rat experimental autoimmune encephalomyelitis. " J Immunol 160(2): 681-90
Pubmed
III. Weissert R, Lobell A, de Graaf KL, Eltayeb SY, Andersson R, Olsson T, Wigzell H (2000). "Protective DNA vaccination against organ-specific autoimmunity is highly specific and discriminates between single amino acid substitutions in the peptide autoantigen" Proc Natl Acad Sci U S A 97(4): 1689-94
Pubmed
IV. Weissert R, de Graaf KL, Storch MK, Barth S, Linington C, Lassman H, Olsson T (2001). "MHC class II-regulated central nervous system autoaggression and T cell responses in peripheral lymphoid organs are dissociated in myelin oligodendrocyte glycoprotein-induced experimental autoimmune encephalomyelitis." J Immunol (Accepted)
V. de Graaf KL, Fleckenstein B, Olsson T, Melms A, Wiesmuller KH, Weissert R (2001). "Prevention of experimental autoimmune encephalomyelitis by a rationally designed synthetic RT1.Dn nonapeptide ligand." (Manuscript)
Issue date: 2001-05-25
Publication year: 2001
ISBN: 91-628-4857-7
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