The present invention provides peptidic TGF-β antagonists capable of inhibiting TGF-β signaling and disrupting the biochemical events that promote fibrosis and the epithelial-mesenchymal transition. The peptidic TGF-β antagonist may contain from 11 to 28 amino acid residues (for instance, may consist of from 12 to 16 amino acid residues) and may have the following structure (II):

NH.sub.2′ETWIWLDTNMG-Xaa.sub.1-Y′COON  (II)

wherein Xaa.sub.1 is any amino acid and Y is a peptide having from 0 to 9 amino acids.

The peptidic TGF-β antagonists can advantageously be used for the prevention, treatment, and/or alleviation of the symptoms of a condition associated with an increase in TGF-β activity, including fibrosis (such as fibrosis of the skin, liver, lungs, and heart, among others) and cancer (including various carcinomas, such as squamous cell carcinoma, sarcomas, and metastatic cancers).

Described herein are polypeptides capable of self-assembling to form homo-oligomers, and methods for designing such polypeptides.

Described herein are polypeptides capable of self-assembling to form homo-oligomers, and methods for designing such polypeptides.

The present invention relates to novel peptides derived from Kita-kyushu lung cancer antigen 1 (CT83), complexes comprising such peptides bound to recombinant MHC molecules, and cells presenting said peptide in complex with MHC molecules. Also provided by the present invention are binding moieties that bind to the peptides and/or complexes of the invention. Such moieties are useful for the development of immunotherapeutic reagents for the treatment of diseases such as cancer.

The present invention relates to novel peptides derived from Kita-kyushu lung cancer antigen 1 (CT83), complexes comprising such peptides bound to recombinant MHC molecules, and cells presenting said peptide in complex with MHC molecules. Also provided by the present invention are binding moieties that bind to the peptides and/or complexes of the invention. Such moieties are useful for the development of immunotherapeutic reagents for the treatment of diseases such as cancer.

This invention discloses methods and compositions for the treatment of demyelinating disorders. Specifically, the invention relates to the use guanabenz or guanabenz derivative for treating demyelinating disorders.

This invention discloses methods and compositions for the treatment of demyelinating disorders. Specifically, the invention relates to the use guanabenz or guanabenz derivative for treating demyelinating disorders.

Antiviral protease inhibitors are disclosed, along with related antiviral dipeptidyl compounds, macrocyclic derivatives thereof and methods of using the same to treat or prevent viral infection and disease from coronaviruses, caliciviruses, and picornaviruses.

Antiviral protease inhibitors are disclosed, along with related antiviral dipeptidyl compounds, macrocyclic derivatives thereof and methods of using the same to treat or prevent viral infection and disease from coronaviruses, caliciviruses, and picornaviruses.

[Object] To provide a novel examination method for a cancer treatment effect, screening method fora peptide fora cancer vaccine, and peptide and composition for inducing an immune response against cancer. [Solving Means] Provided are an examination method for a cancer treatment effect and a screening method for a peptide for a cancer vaccine each including detecting an antibody against a cancer/testis antigen or an anti-p53 antibody in a sample. It is suitable that an anti-XAGE1 antibody (IgG and/or IgA) be detected, or an anti-NY-ESO-1 antibody (IgG) be detected. Also provided are a novel peptide and novel composition for inducing immune responses against cancer.