The present disclosure provides relaxin-2 fusion protein analogs with enhanced in vivo half-life and methods for making the same. Also disclosed herein are methods of treating relaxin-2-associated disorders or diseases using the relaxin-2 fusion protein analogs described herein.

The present disclosure provides relaxin-2 fusion protein analogs with enhanced in vivo half-life and methods for making the same. Also disclosed herein are methods of treating relaxin-2-associated disorders or diseases using the relaxin-2 fusion protein analogs described herein.

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.

Modified relaxin polypeptides and their uses thereof are provided.

Modified relaxin polypeptides and their uses thereof are 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.

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.

Relaxin (RLN) analogs are disclosed including modifications that increase half-life when compared to native, human RLN, that maintain selectivity to the RXFP1 receptor and that provide in vitro and in vivo stability for improved druggability properties and less immunogenicity. Pharmaceutical compositions also are disclosed that include one or more of the RLN analogs described herein in a pharmaceutically acceptable carrier. Methods of making and using the RLN analogs also are disclosed, especially for treating cardiovascular, pulmonary and/or renal conditions, diseases or disorders.

Relaxin (RLN) analogs are disclosed including modifications that increase half-life when compared to native, human RLN, that maintain selectivity to the RXFP1 receptor and that provide in vitro and in vivo stability for improved druggability properties and less immunogenicity. Pharmaceutical compositions also are disclosed that include one or more of the RLN analogs described herein in a pharmaceutically acceptable carrier. Methods of making and using the RLN analogs also are disclosed, especially for treating cardiovascular, pulmonary and/or renal conditions, diseases or disorders.