Patent application number | Description | Published |
20080267987 | Recombinant MHC Molecules Useful For Manipulation Of Antigen-Specific T-Cells - Two-domain MHC polypeptides useful for manipulation of antigen-specific T-cells are disclosed. These polypeptides include MHC class II-based molecules that comprise covalently linked β1 and α1 domains, and MHC class I-based molecules that comprise covalently linked α1 and α2 domains. These polypeptides may also include covalently linked antigenic determinants, toxic moieties, and/or detectable labels. The disclosed polypeptides can be used to target antigen-specific T-cells, and are useful, among other things, to detect and purify antigen-specific T-cells, to induce or activate T-cells, and to treat conditions mediated by antigen-specific T-cells. | 10-30-2008 |
20090280135 | Recombinant MHC molecules useful for manipulation of antigen-specific T-cells - Two-domain MHC polypeptides are useful for modulating activities of antigen-specific T-cells, including for modulating pathogenic potential and effects of antigen-specific T-cells. Exemplary MHC class II-based recombinant T-cell ligands (RTLs) of the invention include covalently linked β1 and α1 domains, and MHC class I-based molecules that comprise covalently linked α1 and α2 domains. These polypeptides may also include covalently linked antigenic determinants, toxic moieties, and/or detectable labels. The disclosed polypeptides can be used to target antigen-specific T-cells, and are useful, among other things, to detect and purify antigen-specific T-cells, to induce or activate T-cells, to modulate T-cell activity, including by regulatory switching of T-cell cytokine and adhesion molecule expression, to treat conditions mediated by antigen-specific T-cells, to treat or prevent autoimmune or neurodegenerative diseases, to protect axons, and to prevent or reverse demyelination. | 11-12-2009 |
20100279401 | T Cell Hybridomas And Related Compositions And Methods For Assaying And Modulating T Cell Receptor-Mediated Immune Responses - The present invention provides T cell hybridomas and related compositions and assay systems for investigative, diagnostic, and therapeutic use in modulating T cell receptor (TCR)-mediated immune response. The T cell hybridomas of the invention are typically constructed by fusing a naïve or early central memory T cell isolated from a mammalian subject with an immortalizing fusion partner (e.g. mammalian lymphoid tumor cell) to yield clonal T cell hybrids. The resulting T cell hybridomas exhibit antigen (Ag)-specific proliferation responsiveness over a background level of proliferation of the hybridomas. These hybridomas are useful for screening, identifying, and characterizing T cell immune modulatory agents, for example recombinant T cell receptor ligands (RTLs) and other agents that can modulate TCR-mediated T cell immune responses. Ag-specific proliferative response profiles exhibited by the T cell hybridomas of the invention show sufficient amplitude, sensitivity and fidelity to distinguish and/or quantify the presence and/or activity of a test RTL or other test modulatory agent in screening and sensitivity assays employing the hybridomas. These and other aspects of the invention yield powerful tools and methods for developing and characterizing novel RTLs and other immune modulatory agents for use in treating immune disorders, including a wide range of autoimmune diseases, in mammals. | 11-04-2010 |
20110008382 | Compositions and methods using recombinant MHC molecules for the treatment of uveitis - Two-domain MHC polypeptides are useful for modulating activities of antigen-specific T-cells, including for modulating pathogenic potential and effects of antigen-specific T-cells. Exemplary MHC class II-based recombinant T-cell ligands (RTLs) of the invention include covalently linked β1 and α1 domains, and MHC class I-based molecules that comprise covalently linked α1 and α2 domains. These polypeptides may also include covalently linked antigenic determinants, toxic moieties, and/or detectable labels. The disclosed polypeptides can be used to target antigen-specific T-cells, and are useful, among other things, to detect and purify antigen-specific T-cells, to induce or activate T-cells, to modulate T-cell activity, including by regulatory switching of T-cell cytokine and adhesion molecule expression, to treat conditions mediated by antigen-specific T-cells, for example autoimmune diseases or conditions such as acute and recurrent uveitis. | 01-13-2011 |
20110217308 | Compositions and methods using recombinant MHC molecules for the treatment of stroke - Two-domain MHC polypeptides are useful for modulating activities of antigen-specific T-cells, including for modulating pathogenic potential and effects of antigen-specific T-cells. Exemplary MHC class II-based recombinant T-cell ligands (RTLs) of the invention include covalently linked β1 and α1 domains, and MHC class I-based molecules that comprise covalently linked α1 and α2 domains. These polypeptides may also include covalently linked antigenic determinants, toxic moieties, and/or detectable labels. The disclosed polypeptides can be used to target antigen-specific T-cells, and are useful, among other things, to detect and purify antigen-specific T-cells, to induce or activate T-cells, to modulate T-cell activity, including by regulatory switching of T-cell cytokine and adhesion molecule expression, to treat conditions mediated by antigen-specific T-cells, including treatment and/or prevention of central nervous system damage relating to stroke. | 09-08-2011 |
20110262479 | RECOMBINANT MHC MOLECULES USEFUL FOR MANIPULATION OF ANTIGEN-SPECIFIC T-CELLS - Two-domain MHC polypeptides useful for manipulation of antigen-specific T-cells are disclosed. These polypeptides include MHC class II-based molecules that comprise covalently linked β1 and α1 domains, and MHC class I-based molecules that comprise covalently linked α1 and α2 domains. These polypeptides may also include covalently linked antigenic determinants, toxic moieties, and/or detectable labels. The disclosed polypeptides can be used to target antigen-specific T-cells, and are useful, among other things, to detect and purify antigen-specific T-cells, to induce or activate T-cells, and to treat conditions mediated by antigen-specific T-cells. | 10-27-2011 |
20130171179 | RECOMBINANT T-CELL RECEPTOR LIGANDS WITH COVALENTLY BOUND PEPTIDES - Disclosed herein are stable complexes including an MHC class I or MHC class II recombinant T cell receptor ligand RTL polypeptide covalently linked to an antigenic determinant by a disulfide bond. Also disclosed are methods of making such compositions and methods of use, for example to treat or inhibit a disorder, for example, an autoimmune disorder. | 07-04-2013 |
20130190221 | MONOMERIC RECOMBINANT MHC MOLECULES USEFUL FOR MANIPULATION OF ANTIGEN-SPECIFIC T-CELLS - The present invention provides, in particular embodiments, for modified recombinant T cell receptor (TCR) ligands (RTLs) comprising a MHC class I or MHC class II component. The modified RTLs have redesigned surface features that preclude or reduce aggregation, wherein the modified molecules retain the ability to bind Ag-peptides, target antigen-specific T cells, inhibit T cell proliferation in an Ag-specific manner and have utility to treat, inter alia, autoimmune disease and other conditions mediated by antigen-specific T cells in vivo. | 07-25-2013 |
20130273087 | RECOMBINANT T-CELL RECEPTOR LIGAND FOR THE TREATMENT OF COGNITIVE AND NEUROPSYCHIATRIC IMPAIRMENT INDUCED BY SUBSTANCE ADDICTION - Methods are provided for the treatment of subjects with cognitive or neuropsychiatric impairment induced by substance addiction and for increasing cognitive function in a subject with substance addiction. In some embodiments, the methods include administering to the subject a therapeutically effective amount of a major histocompatibility complex (MHC) molecule including covalently linked first, second, and third domains; wherein the first domain is an MHC class II β1 domain and the second domain is an MHC class II α1 domain; or wherein the first domain is an MHC class I α1 domain and the second domain is an MHC class I α2 domain; and wherein the third domain is covalently linked to the first domain and comprises an antigen of the central or peripheral nervous system. | 10-17-2013 |
20140056936 | COMPOSITIONS AND METHODS USING RECOMBINANT MHC MOLECULES FOR THE TREATMENT OF STROKE - Two-domain MHC polypeptides are useful for modulating activities of antigen-specific T-cells, including for modulating pathogenic potential and effects of antigen-specific T-cells. Exemplary MHC class II-based recombinant T-cell ligands (RTLs) of the invention include covalently linked β1 and α1 domains, and MHC class I-based molecules that comprise covalently linked α1 and α2 domains. These polypeptides may also include covalently linked antigenic determinants, toxic moieties, and/or detectable labels. The disclosed polypeptides can be used to target antigen-specific T-cells, and are useful, among other things, to detect and purify antigen-specific T-cells, to induce or activate T-cells, to modulate T-cell activity, including by regulatory switching of T-cell cytokine and adhesion molecule expression, to treat conditions mediated by antigen-specific T-cells, including treatment and/or prevention of central nervous system damage relating to stroke. | 02-27-2014 |
20150037363 | RECOMBINANT T-CELL RECEPTOR LIGAND FOR THE TREATMENT OF COGNITIVE AND NEUROPSYCHIATRIC IMPAIRMENT INDUCED BY SUBSTANCE ADDICTION - Methods are provided for the treatment of subjects with cognitive or neuropsychiatric impairment induced by substance addiction and for increasing cognitive function in a subject with substance addiction. In some embodiments, the methods include administering to the subject a therapeutically effective amount of a major histocompatibility complex (MHC) molecule including covalently linked first, second, and third domains; wherein the first domain is an MHC class II β1 domain and the second domain is an MHC class II α1 domain; or wherein the first domain is an MHC class I α1 domain and the second domain is an MHC class I α2 domain; and wherein the third domain is covalently linked to the first domain and comprises an antigen of the central or peripheral nervous system. | 02-05-2015 |
20150044245 | PARTIAL MHC CONSTRUCTS AND METHODS OF USE - Disclosed herein are isolated major histocompatibility complex (MHC) class II α1 domain polypeptides and methods of use. In some embodiments, the isolated polypeptide comprises or consists of an MHC class II α1 domain polypeptide (or portion thereof) and does not include an MHC class II α2, β1, or β2 domain. The disclosed MHC class II α1 domain polypeptides are of use in treating or inhibiting disorders in a subject, such as inflammatory and/or autoimmune disorders. Also disclosed are methods of evaluating efficacy of treatment or optimizing treatment of a subject with a polypeptide including an MHC class II α1 domain polypeptide (or portion thereof) or a polypeptide including an MHC class II α1 domain and β1 domain (such as a β1α1 RTL). | 02-12-2015 |