Abstract: Provided herein are peptides and variant peptides that exhibit enhanced activity at the GLP-1 receptor, as compared to native glucagon.

Abstract: Modified human growth hormone polypeptides and uses thereof are provided.

Abstract: Prodrug formulations of glucagon superfamily peptides are provided wherein the glucagon superfamily peptide has been modified by the linkage of a dipeptide to the glucagon superfamily through an amide bond linkage. The prodrugs disclosed herein have extended half lives and are converted to the active form at physiological conditions through a non-enzymatic reaction driven by chemical instability.

Abstract: Provided herein are peptides and variant peptides that exhibit enhanced activity at the GLP-1 receptor, as compared to native glucagon.

Abstract: Prodrug formulations of glucagon superfamily peptides are provided wherein the glucagon superfamily peptide has been modified by the linkage of a dipeptide to the glucagon superfamily through an amide bond linkage. The prodrugs disclosed herein have extended half lives and are converted to the active form at physiological conditions through a non-enzymatic reaction driven by chemical instability.

Abstract: Provided herein are glucagon analogs comprising a modified amino acid sequence of native human glucagon (SEQ ID NO: 2) that exhibit activity at the glucagon receptor, activity at the GLP-1 receptor, or activity at each of the glucagon receptor and the GLP-1 receptor. In some embodiments, the glucagon analog exhibits at least 100% or more of the activity of native glucagon at the glucagon receptor and/or at least 100% or more of the activity of native GLP-1 at the GLP-1 receptor. In some embodiments, the glucagon analog has an EC50 at the GLP-1 receptor which is within 50-fold or less than the EC50 at the glucagon receptor. In some embodiments, the glucagon analog has an EC50 at the GLP-1 receptor which is two- to ten-fold greater than the EC50 at the glucagon receptor. Related conjugates, dimers and multimers, and pharmaceutical compositions, and uses thereof, are further provided.

Abstract: Provided herein are peptide combinations comprising a GIP agonist peptide and a glucagon antagonist peptide. In some embodiments, the peptide combination is provided as a composition, e.g., a pharmaceutical composition, while in other embodiments, the peptide combination is provided as a kit. In yet other embodiments, the peptide combination is provided as a conjugate, e.g., a fusion peptide, a heterodimer. In specific aspects, the GIP agonist peptide is an analog of native human glucagon. In specific aspects, the glucagon antagonist peptide is an analog of native human glucagon. In some embodiments, the GIP agonist peptide is covalently attached to the glucagon antagonist peptide via a linker. Method of treating a disease, e.g., a metabolic disorder, such as diabetes and obesity, comprising administering the peptide compositions described herein are further provided.

Abstract: Prodrug formulations of bioactive polypeptides are provided wherein the bioactive polypeptide has been modified by the linkage of a dipeptide to the bioactive polypeptide through an ester linkage. The prodrugs disclosed herein in some embodiments have extended half lives of at least 1.5 hours (e.g., at least 10 hours), and more typically greater than 20 hours and less than 70 hours, and are converted to the active form at physiological conditions through a non-enzymatic reaction driven by chemical instability.

Abstract: Prodrug formulations of insulin and insulin analogs are provided wherein the insulin peptide has been modified by an amide bond linkage of a dipeptide prodrug element. The prodrugs disclosed herein have extended half lives of at least 10 hours, and more typically greater than 2 hours, 20 hours and less than 70 hours, and are converted to the active form at physiological conditions through a non-enzymatic reaction driven by chemical instability.

Abstract: Modified glucagon peptides are disclosed having improved solubility while retaining glucagon agonist activity. The glycogen peptides have been modified by substitution of native amino acids with, and/or addition of, charged amino acids to the carboxy terminus of the peptide. The modified glucagon agonists can be further modified by pegylation, or the addition of a carboxy terminal peptide selected from the group consisting of SEQ ID NO: 20, SEQ ID NO: 21, SEQ ID NO: 23, or both to further enhance the solubility of the glucagon agonist analogs.

Abstract: Herein is reported an Fc-region fusion polypeptide or Fc-region conjugate comprising one to four incretin receptor ligand polypeptides and a variant human Fc-region with a mutation of the amino acid residue at position 329 and at least one further mutation of at least one amino acid selected from the group comprising amino acid residues at position 228, 233, 234, 235, 236, 237, 297, 318, 320, 322 and 331 to a different residue, wherein the residues in the Fc-region are numbered according to the EU index of Kabat and its use as a medicament.

Abstract: Stabilized glucagon solutions, methods of storing and using the stabilized glucagon solutions, and drug delivery devices containing the stabilized glucagon solutions. In some embodiments, the glucagon solutions may be alkaline, such as with a pH of at least about 9. The glucagon solutions may be resistant to aggregation of glucagon when the solutions are stored for a prolonged period, such as at least about three days, at room temperature and/or physiological temperature.

Abstract: Methods are provided for administering an extended half-life GLP-1/GIP coagonist peptide to a patient in need thereof for reducing weight gain, inducing weight loss, treating hyperglycemia, reducing blood glucose levels, or normalizing blood glucose levels in said patient.

Abstract: Provided herein are glucagon analogs which exhibit potent activity at the GIP receptor, and, as such are contemplated for use in treating diabetes and obesity. In exemplary embodiments, the glucagon analog of the present disclosures exhibit an EC50 at the GIP receptor which is within the nanomolar or picomolar range.

Abstract: Modified human plasma polypeptides or Fc and uses thereof are provided.

Abstract: Provided herein are peptide combinations comprising a GIP agonist peptide and a glucagon antagonist peptide. In some embodiments, the peptide combination is provided as a composition, e.g., a pharmaceutical composition, while in other embodiments, the peptide combination is provided as a kit. In yet other embodiments, the peptide combination is provided as a conjugate, e.g., a fusion peptide, a heterodimer. In specific aspects, the GIP agonist peptide is an analog of native human glucagon. In specific aspects, the glucagon antagonist peptide is an analog of native human glucagon. In some embodiments, the GIP agonist peptide is covalently attached to the glucagon antagonist peptide via a linker. Methods of treating a disease, e.g., a metabolic disorder, such as diabetes and obesity, comprising administering the peptide compositions described herein are further provided.

Abstract: Modified glucagon peptides are disclosed having enhanced potency at the glucagon receptor relative to native glucagon. Further modification of the glucagon peptides by forming intramolecular bridges or the substitution of the terminal carboxylic acid with an amide group produces peptides exhibiting glucagon/GLP-1 receptor co-agonist activity. The solubility and stability of these high potency glucagon analogs can be further improved by modification of the polypeptides by pegylation, acylation, alkylation, substitution of carboxy terminal amino acids, C-terminal truncation, or the addition of a carboxy terminal peptide selected from the group consisting of SEQ ID NO: 26 (GPSSGAPPPS), SEQ ID NO: 27 (KRNRNNIA) and SEQ ID NO: 28 (KRNR).

Abstract: Provided herein are glucagon analogs which exhibit potent activity at the GIP receptor, and, as such are contemplated for use in treating diabetes and obesity. In exemplary embodiments, the glucagon analog of the present disclosures exhibit an EC50 at the GIP receptor which is within the nanomolar or picomolar range.

Abstract: Single chain insulin analogs are provided having high potency and specificity for the insulin receptor. As disclosed herein optimally sized linking moieties can be used to link human insulin A and B chains, or analogs or derivatives thereof, wherein the carboxy terminus of the B25 amino acid of the B chain is linked to the amino terminus of the A1 amino acid of the A chain via the intervening linking moiety. In on embodiment the linking moiety comprises a polyethylene glycol of 6-16 monomer units and in an alternative embodiment the linking moiety comprises a non-native amino acid sequence derived form the IGF-1 C-peptide and comprising at least 8 amino acids and no more than 12 amino acid in length. Also disclosed are prodrug and conjugate derivatives of the single chain insulin analogs.

Abstract: Full potency analogs of insulin are provided wherein the analog comprises a modification of the tyrosine residue at position 19 of the A chain.