E Boen scite author profile

SummarySuperantigens, in association with class II major histocompatibility complex (MHC) molecules, activate T cells bearing particular/~ chain variable domains of the T cell receptor (TCR). Unlike conventional peptide antigens, superantigens bind as intact proteins to TCR and MHC molecules outside their peptide binding sites. To characterize these interactions at the molecular level, random point mutations were generated in the gene encoding toxic shock syndrome toxin 1, a bacterial superantigen associated with toxic shock syndrome. Functionally impaired mutants were identified based on their lack of murine and human T cell stimulatory activities, and experiments analyzing binding to human histocompatibility leukocyte antigen-DR molecules differentiated residues involved in MHC from TCR binding. The results showed that the great majority of mutations are clustered in two distinct regions of the toxic shock syndrome toxin 1 molecule. The class II MHC binding site is located in the hydrophobic region of the NH2-terminal domain, and the TCR binding site is primarily in the major central groove of the COOH-terminal domain. These studies provide insight into the interactions necessary for superantigen-mediated disease in humans.

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Identification of T Cell Ligands in a Library of Peptides Covalently Attached to HLA-DR4

Boen

Crownover

McIlhaney

et al. 2000

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While T cells have been clearly implicated in a number of disease processes including autoimmunity, graft rejection, and atypical immune responses, the precise Ags recognized by the pathogenic T cells have often been difficult to identify. This has particularly been true for MHC class II-restricted CD4+ T cells. Although such cells can be demonstrated to have undergone clonal expansion at sites of pathology, they are frequently difficult to establish as stable T cell clones. Furthermore, in general, larger peptides in higher concentrations are required to stimulate CD4+ T cells than CD8+ T cells, which makes some of the techniques developed to identify CD8+ T cell Ags impractical. To circumvent some of these problems, we developed a model system consisting of two parts. The first part involves the construction of an indicator T cell hybridoma expressing a chimeric TCR comprised of murine constant regions and human variable regions specific for influenza hemagglutinin 307–319 presented by DR4. The second part consists of a library of fibroblasts each expressing multiple peptides as amino terminal covalent extensions of the β-chain of HLA-DR4 (DRA1*0101, DRB1*0401). Using this model system, we screened ∼100,000 peptides and identified three novel peptides stimulatory for the HA1.7 TCR. While there is some convergence at residues known to be important for T cell recognition, all three peptides differ markedly from each other and bear little resemblance to wild-type hemagglutinin 307–319.

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Direct binding of progesterone receptor to nonconsensus DNA sequences represses rat GnRH

Kepa

Jacobsen

Boen

et al. 1996

Molecular and Cellular Endocrinology

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Delineation by use of specific monoclonal antibodies of the T-cell receptor and major histocompatibility complex interaction sites on the superantigen toxic shock syndrome toxin 1

et al. 1996

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Murine monoclonal antibodies (MAbs) specific for toxic shock syndrome toxin 1 (TSST-1), a bacterial superantigen, showed the ability either to detect TSST-1 bound to histocompatibility locus antigen (HLA)-DR molecules or to inhibit TSST-1 binding to HLA-DR. A MAb capable of detecting DR-bound TSST-1 could also inhibit the toxin-induced activation of a T-cell receptor V␤15-expressing murine T-cell hybridoma. Alternatively, MAbs with specificity for the HLA-DR association site could present TSST-1 in vitro, stimulating CD4 ؉ human T cells to proliferate. These functional activities correlated directly with MAb specificity for HLA-DR versus T-cell receptor V␤ interaction sites on TSST-1 as determined by reactivity with a panel of recombinant TSST-1 mutant molecules. Therefore, these MAbs discriminate the superantigen functional sites on the TSST-1 molecule and constitute reagents with the property of being potent modulators of the toxic activity of TSST-1.

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E Boen

Identification of class II major histocompatibility complex and T cell receptor binding sites in the superantigen toxic shock syndrome toxin 1.

Identification of T Cell Ligands in a Library of Peptides Covalently Attached to HLA-DR4

Direct binding of progesterone receptor to nonconsensus DNA sequences represses rat GnRH

Delineation by use of specific monoclonal antibodies of the T-cell receptor and major histocompatibility complex interaction sites on the superantigen toxic shock syndrome toxin 1

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