In certain embodiments novel PAC1 receptor agonists are provided wherein the agonists comprise a targeting sequence that binds to the PAC1 receptor and said targeting sequence is attached to an amino acid sequence comprising a fragment of the maxadilan amino acid sequence, wherein the targeting sequence comprises a full-length 38 amino acid PACAP peptide or an N-terminus fragment thereof containing the amino acid sequence HSDGIF, wherein said targeting sequence optionally comprises an amino acid insertion between residues 11 and 12 of said PACAP peptide or fragment thereof; and the fragment of the maxadilan amino acid sequence comprises a fragment of the maxadilan sequence effective to activate PAC1 signaling.

The invention provides fusion proteins having improved bioactivity comprising a first polypeptide fusion partner and a second polypeptide fusion partner wherein the first fusion partner is linked to the second fusion partner by a mucin-domain polypeptide linker and wherein the bioactivity of the fusion protein of the invention is improved as compared to fusion of the first polypeptide fusion partner and the second polypeptide fusion partner in the absence of the mucin-domain polypeptide linker. Mucin-domain polypeptide linkers comprise a mucin domain that is rich in potential glycosylation sites, and has a high content of serine and/or threonine and proline, which can represent greater than 40% of the amino acids within the mucin domain and further comprise at least about 60% of its mass due to the glycans.

Methods and compositions are provided for extending the half-life of a therapeutic agent. A modified therapeutic agent (mTA) comprises a therapeutic agent, a staple, and a half-life extending molecule. The mTAs disclosed herein may be used to treat a disease or a condition in a subject in need thereof.

Novel peptide agonists of GLP-1 activity useful for lowering blood glucose levels. The novel peptides comprise variants of the GLP-1 or the exendin-4 polypeptide sequence and are pharmacologically active and stable. These peptides are useful in the treatment of diseases that benefit from regulation of excess levels of blood glucose and/or regulation of gastric emptying, such as diabetes and eating disorders.

Compounds are provided having inter alia good duration of action, high potency and/or convenient dosing regimens including oral administration, and reduced immunogenicity. The compounds are engineered polypeptides which incorporate an albumin binding domain in combination with one or more biologically active polypeptides. Also provided are pharmaceutical compositions and methods of treatment for diseases and disorders including obesity and overweight, diabetes, dyslipidemia, hyperlipidemia, Alzheimer's disease, fatty liver disease, Short Bowel Syndrome, Parkinson's disease, and cardiovascular disease.

The present invention is directed to antagonistic antibodies and antigen binding fragments thereof having binding specificity for PACAP. These antibodies inhibit, block or neutralize at least one biological effect associated with PACAP, e.g., vasodilation. In exemplary embodiments these antibodies and antigen binding fragments thereof may comprise specific V.sub.H, V.sub.L, and CDR polypeptides described herein. In some embodiments these antibodies and antigen binding fragments thereof bind to and/or compete for binding to specific epitope(s) on human PACAP. The invention is further directed to using these antagonistic anti-PACAP antibodies, and binding fragments thereof, for the diagnosis, assessment, and treatment of diseases and disorders associated with PACAP and conditions where antagonism of PACAP-related activities, such as vasodilation, mast cell degranulation, and/or neuronal activation, are therapeutically beneficial, e.g., headache and migraine indications.

This disclosure relates to VIP antagonist for uses in managing the treatment or prevention of cancer and viral infections. In certain embodiments, this disclosure relates to chimeric variants of VIP antagonists, as peptides disclosed herein, and pharmaceutical composition comprising the same. In certain embodiments, this disclosure contemplates methods of stimulating immune cells to target cancer by mixing immune cells in vitro with peptides disclosed herein and further administering an effective amount of stimulated immune cells to a subject in need of cancer treatment.

Glycopeptides comprising a peptide that is covalently linked to a saccharide. The peptide portion of the glycopeptides of the invention has from about 20 to about 40 amino acid residues and at least 75% sequence identity to SEQ ID NO:5. The saccharide moiety portion of the glycopeptides of the present invention comprises from 1 to about 8 carbohydrates. The present invention also relates to using the glycopeptides of the invention in treating various neurodegenerative diseases.

The present invention provides fusion proteins comprising a mucin-domain polypeptide covalently linked to an active protein that has improved properties (e.g. pharmacokinetic and/or physicochemical properties) compared to the same active protein not linked to mucin-domain polypeptide, as well as methods for making and using the fusion proteins of the invention.

This invention relates to novel compositions comprising analogs of naturally occurring polypeptides, wherein the analog comprises an -amino acid and at least one -amino acid. Administration of the compositions may be used for effecting treatment or prevention of a plurality of disease states caused by dysfunctional biochemical or biological pathways. The compositions and methods of this invention are particularly useful to identify novel therapeutic modulators of in-vivo receptor activity with extended half-lives and relevant bioactivity as compared to the naturally translated polypeptides upon which the analogs are derived.