Provided are a polypeptide containing disulfide bonds and capable of inhibiting activity of serine protease, and a use thereof, relating to three types of linear polypeptide molecules, respectively capable of inhibiting the activity of small intestine protein metabolic enzymes such as trypsin, chymotrypsin, and elastase. Said polypeptide molecules may be broadly fused to another polypeptide or protein drug capable of treating a disease, so as to form a hybrid peptide. The hybrid peptide may inhibit the degradation of metabolic enzymes to improve the stability of a peptide or protein drug for treating a disease, such that the curative effect of direct injection administration is improved, while also facilitating direct administration absorption of the polypeptide or protein drug in the small intestine, and implementing oral administration of the protein polypeptide drug.

Provided are a polypeptide containing disulfide bonds and capable of inhibiting activity of serine protease, and a use thereof, relating to three types of linear polypeptide molecules, respectively capable of inhibiting the activity of small intestine protein metabolic enzymes such as trypsin, chymotrypsin, and elastase. Said polypeptide molecules may be broadly fused to another polypeptide or protein drug capable of treating a disease, so as to form a hybrid peptide. The hybrid peptide may inhibit the degradation of metabolic enzymes to improve the stability of a peptide or protein drug for treating a disease, such that the curative effect of direct injection administration is improved, while also facilitating direct administration absorption of the polypeptide or protein drug in the small intestine, and implementing oral administration of the protein polypeptide drug.

Analogs for CLR/RAMP receptor ligands are provided that have agonist, superagonist, antagonist, super-antagonist, or multiple receptor modulatng activity. The analogs can be selective for one or more CLR/RAMP receptors, or can be pan-specific for multiple G protein-coupled receptors.

Analogs for CLR/RAMP receptor ligands are provided that have agonist, superagonist, antagonist, super-antagonist, or multiple receptor modulatng activity. The analogs can be selective for one or more CLR/RAMP receptors, or can be pan-specific for multiple G protein-coupled receptors.

Variant peptides of calcitonin gene-related peptide alpha (CGRP), calcitonin gene-related peptide beta (CGRP), and adrenomedullin (AM) are disclosed, wherein the variant peptides have high binding affinity and agonistic or antagonistic activity for at least one receptor complex of CLR:RAMP1, CLR:RAMP2, and CLR:RAMP3. Also disclosed are methods of use of the variant peptides in therapeutic treatments.

Variant peptides of calcitonin gene-related peptide alpha (CGRP), calcitonin gene-related peptide beta (CGRP), and adrenomedullin (AM) are disclosed, wherein the variant peptides have high binding affinity and agonistic or antagonistic activity for at least one receptor complex of CLR:RAMP1, CLR:RAMP2, and CLR:RAMP3. Also disclosed are methods of use of the variant peptides in therapeutic treatments.

The present invention relates to humanised calcitonin mimetics and their use in treating diabetes (Type I and/or Type II), excess bodyweight, excessive food consumption, metabolic syndrome, rheumatoid arthritis, non-alcoholic steatohepatitis (NASH), non-alcoholic fatty liver disease, alcoholic fatty liver disease, osteoporosis, or osteoarthritis, poorly regulated blood glucose levels, poorly regulated response to glucose tolerance tests, or poor regulation of food intake.

The present invention relates to humanised calcitonin mimetics and their use in treating diabetes (Type I and/or Type II), excess bodyweight, excessive food consumption, metabolic syndrome, rheumatoid arthritis, non-alcoholic steatohepatitis (NASH), non-alcoholic fatty liver disease, alcoholic fatty liver disease, osteoporosis, or osteoarthritis, poorly regulated blood glucose levels, poorly regulated response to glucose tolerance tests, or poor regulation of food intake.

The present disclosure pertains to methods of producing recombinant peptides that contain between 10 and 200 amino acid residues using novel carrier proteins derived from superfolder green fluorescent protein and its mutants.

The present disclosure pertains to methods of producing recombinant peptides that contain between 10 and 200 amino acid residues using novel carrier proteins derived from superfolder green fluorescent protein and its mutants.