The present invention provides a macrocyclic compound of formula (I) ##STR00001## compositions and kits comprising this compound and their use for preventing or treating pain, or inducing hypothermia or hypotension.

The present invention provides compositions and methods for selective inhibition of the classical or non-classical LTβR-NFκB signaling pathway. In some embodiments, the compositions and methods of the present invention are useful for treating or preventing tissue graft rejection, inflammation, contact hypersensitivity, and cancer by decreasing cell motility.

The invention provides a method of treating pathogenic bacterial infection (e.g., tuberculosis infection) in an animal comprising administering a peptide-based inhibitor of the STAT3-IL10 pathway or a nucleic acid encoding the peptide-based inhibitor to the animal. The invention also provides methods of treating chronic granulomatous disease and Wegener's granulomatosis in an animal comprising administering a peptide-based inhibitor of the STAT3-IL10 pathway or a nucleic acid encoding the peptide-based inhibitor to the animal.

The invention provides peptides and analogs of INGAP and HIP peptides. The peptides and analogs can be used in methods for treating various diseases and conditions. Such diseases and conditions can include impaired pancreatic function, treating a metabolic disease, for example, diabetes, both type 1 and type 2 diabetes, islets induction, expansion and proliferation for trans plantation, promoting neuroprotection or nerve regeneration, promoting liver regeneration or inhibiting inflammation.

The invention provides peptides and analogs of INGAP and HIP peptides. The peptides and analogs can be used in methods for treating various diseases and conditions. Such diseases and conditions can include impaired pancreatic function, treating a metabolic disease, for example, diabetes, both type 1 and type 2 diabetes, islets induction, expansion and proliferation for trans plantation, promoting neuroprotection or nerve regeneration, promoting liver regeneration or inhibiting inflammation.

Provided are azido-BODIPY compounds of formula (I), cyclooctyne-based fluorogenic probes of formula (IV), and activity-based probes of formula (VI). These compounds undergo azide-alkyne cycloadditions (AAC) with to form triazolyl products. The provided compounds are useful for detection and imaging of alkyne-, or azide-containing molecules. Methods for detection and imaging biomolecules using compounds of the present disclosure are disclosed.

Provided are azido-BODIPY compounds of formula (I), cyclooctyne-based fluorogenic probes of formula (IV), and activity-based probes of formula (VI). These compounds undergo azide-alkyne cycloadditions (AAC) with to form triazolyl products. The provided compounds are useful for detection and imaging of alkyne-, or azide-containing molecules. Methods for detection and imaging biomolecules using compounds of the present disclosure are disclosed.

Methods and compositions related to the selective, specific disruption of multiple ligand-receptor signaling interactions, such as ligand-receptor interactions implicated in disease, are disclosed. These interactions may involve multiple cytokines in a single receptor family or multiple ligand receptor interactions from at least two distinct ligand-receptor families. The compositions may comprise polypeptides having composite sequences that comprise sequence fragments of two or more ligand binding sites. The methods and compositions may involve sequence fragments of two or more ligand binding sites that are arranged to conserve the secondary structure of each of the ligands from which the sequence fragments were taken.

Methods and compositions related to the selective, specific disruption of multiple ligand-receptor signaling interactions, such as ligand-receptor interactions implicated in disease, are disclosed. These interactions may involve multiple cytokines in a single receptor family or multiple ligand receptor interactions from at least two distinct ligand-receptor families. The compositions may comprise polypeptides having composite sequences that comprise sequence fragments of two or more ligand binding sites. The methods and compositions may involve sequence fragments of two or more ligand binding sites that are arranged to conserve the secondary structure of each of the ligands from which the sequence fragments were taken.

This invention is directed to vaccine compositions and methods of using the same to prevent infection.