The present disclosure provides an additive system for use in protein PEGylation. The additive system includes p-aminobenzoic hydrazide used either alone or in combination with aromatic amines, such as 3,5-diaminobenzoic acid, or with ammonium salts such as ammonium chloride or ammonium acetate. The disclosed additive combination provides several benefits including increased reaction rates, higher yields and reduction in the aminoxy-PEG equivalents required to complete the conjugation reaction. Typical reactions can be run by combining the additive or additive system with a solution of a protein and aminoxy-PEG reagent. The solution is adjusted to pH 4 and held at 20-25° C. without stirring until completion, typically within 24 hours.

The present disclosure provides an additive system for use in protein PEGylation. The additive system includes p-aminobenzoic hydrazide used either alone or in combination with aromatic amines, such as 3,5-diaminobenzoic acid, or with ammonium salts such as ammonium chloride or ammonium acetate. The disclosed additive combination provides several benefits including increased reaction rates, higher yields and reduction in the aminoxy-PEG equivalents required to complete the conjugation reaction. Typical reactions can be run by combining the additive or additive system with a solution of a protein and aminoxy-PEG reagent. The solution is adjusted to pH 4 and held at 20-25° C. without stirring until completion, typically within 24 hours.

A biologically active single chain Relaxin peptide having the formula N.sub.ter-Ac-L-E-G-R-E-K-V-R-A-X.sub.19-I-X.sub.21-X.sub.22-E-G-X.sub.25-S-T-F-S-X.sub.30-R-A-X.sub.33-NH.sub.2-C.sub.ter, or a salt of solvate thereof, is described.

A biologically active single chain Relaxin peptide having the formula N.sub.ter-Ac-L-E-G-R-E-K-V-R-A-X.sub.19-I-X.sub.21-X.sub.22-E-G-X.sub.25-S-T-F-S-X.sub.30-R-A-X.sub.33-NH.sub.2-C.sub.ter, or a salt of solvate thereof, is described.

Modified relaxin polypeptides and their uses thereof are provided. Exemplary embodiments provide relaxin polypeptides which include one or more amino acid substitutions with natural or non-naturally encoded amino acids, and/or linkage to a water-soluble polymer, such as polyethylene glycol. Additionally, use of said relaxin polypeptides for treatment of disease, such as heart failure, is also provided.

Modified relaxin polypeptides and their uses thereof are provided. Exemplary embodiments provide relaxin polypeptides which include one or more amino acid substitutions with natural or non-naturally encoded amino acids, and/or linkage to a water-soluble polymer, such as polyethylene glycol. Additionally, use of said relaxin polypeptides for treatment of disease, such as heart failure, is also provided.

The present disclosure generally relates to modified relaxin polypeptides, such as modified human relaxin 2 polypeptides, comprising a non-naturally encoded amino acid which is linked to a pharmacokinetic enhancer, and therapeutic uses of such polypeptides, such as for the treatment of cardiovascular conditions (such as heart failure) and/or conditions relating to fibrosis.

The present disclosure generally relates to modified relaxin polypeptides, such as modified human relaxin 2 polypeptides, comprising a non-naturally encoded amino acid which is linked to a pharmacokinetic enhancer, and therapeutic uses of such polypeptides, such as for the treatment of cardiovascular conditions (such as heart failure) and/or conditions relating to fibrosis.

The present invention relates to heterodimeric Relaxin fusion polypeptides, in particular to heterodimeric Relaxin 2 fusion polypeptides and uses thereof. Thus, the invention provides Relaxin fusion polypeptides, nucleic acid molecules, vectors, host cells, pharmaceutical compositions and kits comprising the same and uses of the same including methods of treatment. The polypeptides and compositions of the invention may be useful, in particular, in the treatment of cardiovascular diseases, for example for the treatment of heart failure.

The present invention relates to heterodimeric Relaxin fusion polypeptides, in particular to heterodimeric Relaxin 2 fusion polypeptides and uses thereof. Thus, the invention provides Relaxin fusion polypeptides, nucleic acid molecules, vectors, host cells, pharmaceutical compositions and kits comprising the same and uses of the same including methods of treatment. The polypeptides and compositions of the invention may be useful, in particular, in the treatment of cardiovascular diseases, for example for the treatment of heart failure.