Abstract: Provided herein are antibodies that bind to tumor tissue through a binding interaction with an extracellular RNA-protein complex. Such antibodies are used in methods of inducing an immune response and methods of inhibiting tumor cell growth. Additionally provided are methods of producing such antibodies.

Abstract: Provided herein are antibodies that bind to tumor tissue through a binding interaction with an extracellular RNA-protein complex. Such antibodies are used in methods of inducing an immune response and methods of inhibiting tumor cell growth. Additionally provided are methods of producing such antibodies.

Abstract: Disclosed herein are methods and compositions for using nanoexpression to interrogate antigen specificity within antibody repertoires. Also disclosed herein is an antibody display system composition comprising one or more recombinant nucleic acid sequences comprising a first nucleic acid sequence encoding a heavy chain variable region sequence or fragment thereof operatively linked to a first identification region sequence and a second nucleic acid sequence encoding a light chain variable region sequence or fragment thereof operatively linked to a second identification region sequence.

Abstract: Disclosed herein are methods and compositions for using nanoexpression to interrogate antigen specificity within antibody repertoires. Also disclosed herein is an antibody display system composition comprising one or more recombinant nucleic acid sequences comprising a first nucleic acid sequence encoding a heavy chain variable region sequence or fragment thereof operatively linked to a first identification region sequence and a second nucleic acid sequence encoding a light chain variable region sequence or fragment thereof operatively linked to a second identification region sequence.

Abstract: Provided herein are antibodies that bind to tumor tissue through a binding interaction with an extracellular RNA-protein complex. Such antibodies are used in methods of inducing an immune response and methods of inhibiting tumor cell growth. Additionally provided are methods of producing such antibodies.

Abstract: Disclosed herein are methods and compositions for using nanoexpression to interrogate antigen specificity within antibody repertoires. Also disclosed herein is an antibody display system composition comprising one or more recombinant nucleic acid sequences comprising a first nucleic acid sequence encoding a heavy chain variable region sequence or fragment thereof operatively linked to a first identification region sequence and a second nucleic acid sequence encoding a light chain variable region sequence or fragment thereof operatively linked to a second identification region sequence.

Abstract: The invention provides methods for isolating cell-type specific mRNAs by selectively isolating ribosomes or proteins that bind mRNA in a cell type specific manner, and, thereby, the mRNA hound to the ribosomes or proteins that bind mRNA. Ribosomes, which are riboprotein complexes, bind mRNA that is being actively translated in cells. According to the methods of the invention, cells are engineered to express a molecularly tagged ribosomal protein or protein that binds mRNA by introducing into the cell a nucleic acid comprising a nucleotide sequence encoding a ribosomal protein or protein that binds mRNA fused to a nucleotide sequence encoding a peptide tag. The tagged ribosome or mRNA binding protein can then be isolated, along with the mRNA bound to the tagged ribosome or mRNA binding protein, and the mRNA isolated and further used for gene expression analysis.

Abstract: Disclosed herein are methods and compositions for using nanoexpression to interrogate antigen specificity within antibody repertoires. Also disclosed herein is an antibody display system composition comprising one or more recombinant nucleic acid sequences comprising a first nucleic acid sequence encoding a heavy chain variable region sequence or fragment thereof operatively linked to a first identification region sequence and a second nucleic acid sequence encoding a light chain variable region sequence or fragment thereof operatively linked to a second identification region sequence.

Abstract: Disclosed herein are methods and compositions for using nanoexpression to interrogate antigen specificity within antibody repertoires. Also disclosed herein is an antibody display system composition comprising one or more recombinant nucleic acid sequences comprising a first nucleic acid sequence encoding a heavy chain variable region sequence or fragment thereof operatively linked to a first identification region sequence and a second nucleic acid sequence encoding a light chain variable region sequence or fragment thereof operatively linked to a second identification region sequence.

Abstract: The invention provides methods for isolating cell-type specific mRNAs by selectively isolating ribosomes or proteins that bind mRNA in a cell type specific manner, and, thereby, the mRNA hound to the ribosomes or proteins that bind mRNA. Ribosomes, which are riboprotein complexes, bind mRNA that is being actively translated in cells. According to the methods of the invention, cells are engineered to express a molecularly tagged ribosomal protein or protein that binds mRNA by introducing into the cell a nucleic acid comprising a nucleotide sequence encoding a ribosomal protein or protein that binds mRNA fused to a nucleotide sequence encoding a peptide tag. The tagged ribosome or mRNA binding protein can then be isolated, along with the mRNA bound to the tagged ribosome or mRNA binding protein, and the mRNA isolated and further used for gene expression analysis.

Abstract: The invention provides methods for isolating cell-type specific mRNAs by selectively isolating ribosomes or proteins that bind mRNA in a cell type specific manner, and, thereby, the mRNA hound to the ribosomes or proteins that bind mRNA. Ribosomes, which are riboprotein complexes, bind mRNA that is being actively translated in cells. According to the methods of the invention, cells are engineered to express a molecularly tagged ribosomal protein or protein that binds mRNA by introducing into the cell a nucleic acid comprising a nucleotide sequence encoding a ribosomal protein or protein that binds mRNA fused to a nucleotide sequence encoding a peptide tag. The tagged ribosome or mRNA binding protein can then be isolated, along with the mRNA bound to the tagged ribosome or mRNA binding protein, and the mRNA isolated and further used for gene expression analysis.

Abstract: The invention provides methods for isolating cell-type specific mRNAs by selectively isolating ribosomes or proteins that bind mRNA in a cell type specific manner, and, thereby, the mRNA hound to the ribosomes or proteins that bind mRNA. Ribosomes, which are riboprotein complexes, bind mRNA that is being actively translated in cells. According to the methods of the invention, cells are engineered to express a molecularly tagged ribosomal protein or protein that binds mRNA by introducing into the cell a nucleic acid comprising a nucleotide sequence encoding a ribosomal protein or protein that binds mRNA fused to a nucleotide sequence encoding a peptide tag. The tagged ribosome or mRNA binding protein can then be isolated, along with the mRNA bound to the tagged ribosome or mRNA binding protein, and the mRNA isolated and further used for gene expression analysis.

Abstract: Compositions and methods are provided for prognostic classification of inflammatory diseases, e.g. inflammatory demyelinating disease, patients into subtypes, which subtypes are informative of the patient's need for therapy and responsiveness to a therapy of interest. The patterns of cytokines provides for a signature pattern that can identify patients likely to benefit from therapeutic intervention as well as discriminate patients that have a high probability of responsiveness to a therapy from those that have a low probability of responsiveness. Assessment of this signature pattern thus allows improved methods of care. In one embodiment of the invention, the autoimmune disease is multiple sclerosis or neuromyelitis optica.

Abstract: The invention provides methods and compositions for isolation and assessment of riboprotein complexes.

Abstract: Disclosed is a pharmaceutical composition comprising tranilast or a pharmaceutically acceptable salt thereof and allopurinol or a pharmaceutically acceptable salt thereof, wherein the amount by weight of said allopurinol or pharmaceutically acceptable salt thereof in said composition is greater than the amount by weight of said tranilast or pharmaceutically acceptable salt thereof in said composition.

Abstract: Disclosed is a pharmaceutical composition comprising (a) a first therapeutic agent, wherein the first therapeutic agent is a compound of formula II: or a pharmaceutically acceptable salt thereof, wherein R1, R2, R3, R4, X and n are as defined herein; (b) a second therapeutic agent, wherein the second therapeutic agent is a uric acid synthesis inhibitor or a uricosuric agent; and (c) a pharmaceutically acceptable diluent or carrier.

Abstract: Combination therapy is disclosed herein for the treatment an arthritic condition (e.g. rheumatoid arthritis, osteoarthritis or psoriatic arthritis). The therapies disclosed herein comprise administering tranilast or an analogous compound in combination with a pharmaceutical agent, such as a non-steroidal anti-inflammatory drug, a disease-modifying drug, a COX-2 inhibitor, an antibiotic, an analgesic or combination thereof.

Abstract: The present invention relates to nucleic and amino acid sequences encoding vanilloid receptors which are vanilloid-insensitive. The present invention provides mutant vanilloid receptors which are insensitive to vanilloid, but which are capable of responding to low pH, heat and other receptor modulators. The invention particularly provides mutant vanilloid insensitive human VR1 receptors. The invention also relates to methods and assays for screening for vanilloid receptor modulators that act independent of the vanilloid binding site and modulate receptor signals independent of a functional vanilloid, or capsaicin, response. The invention further provides methods of modulating the vanilloid receptor, independent of vanilloid response.

Abstract: Disclosed are pharmaceutical compositions for the treatment or prevention of chemokine mediated conditions, such as multiple sclerosis or related conditions, containing 3,4,5-trisubstituted aryl nitrones, and methods for the treatment or prevention of multiple sclerosis and related conditions. The 3,4,5-trisubstituted aryl nitrones have the formula: where R1-R3 and Q are as defined in the specification, or the 3,4,5-trisubstituted aryl nitrones have the formula: where R1-R3 and Q are as defined in the specification.

Abstract: The invention provides methods for isolating cell-type specific mRNAs by selectively isolating ribosomes or proteins that bind mRNA in a cell type specific manner, and, thereby, the mRNA bound to the ribosomes or proteins that bind mRNA. Ribosomes, which are riboprotein complexes, bind mRNA that is being actively translated in cells. According to the methods of the invention, cells are engineered to express a molecularly tagged ribosomal protein or protein that binds mRNA by introducing into the cell a nucleic acid comprising a nucleotide sequence encoding a ribosomal protein or protein that binds mRNA fused to a nucleotide sequence encoding a peptide tag. The tagged ribosome or mRNA binding protein can then be isolated, along with the mRNA bound to the tagged ribosome or mRNA binding protein, and the mRNA isolated and further used for gene expression analysis.