The invention provides antibodies that specifically bind to Kallidin or des-Arg10-Kallidin. The invention also provides pharmaceutical compositions, as well as nucleic acids encoding anti-Kallidin or des-Arg10-Kallidin antibodies, recombinant expression vectors and host cells for making such antibodies, or fragments thereof. Methods of using antibodies of the invention to modulate Kallidin or des-Arg10-Kallidin activity or detect Kallidin or des-Arg10-Kallidin or, either in vitro or in vivo, are also provided by the invention. The invention further provides methods of making antibodies that specifically bind to des-Arg.sub.9-Bradykinin and des-Arg.sub.10-Kallidin-like peptide.

A recombinant protein drug includes a parent protein drug coupled with a modified kininogen-1 peptide. The modified kininogen-1 peptide has the sequence of SEQ ID NO:2 or a homolog having a sequence identity of 80% or higher. The parent protein drug is a bispecific antibody having a first targeting domain linked by a bridging domain with a second targeting domain. The modified kininogen-1 peptide is fused between the first targeting domain and the bridging domain, or between the bridging domain and the second targeting domain. A method for increasing the serum half-life of a protein drug includes constructing a fusion protein comprising the protein drug coupled with a modified kininogen-1 peptide.

The present invention relates to the construction of a new class of Targeted Secretion Inhibitors (TSIs), which comprise a non-cytotoxic protease, translocation peptide and a targeting moiety peptide, wherein the targeting moiety peptide has a free N-terminal domain and a free C-terminal domain; to a single-chain fusion protein precursor thereof, and to a method of activating said single-chain fusion protein precursor.

The present invention relates to the construction of a new class of Targeted Secretion Inhibitors (TSIs), which comprise a non-cytotoxic protease, translocation peptide and a targeting moiety peptide, wherein the targeting moiety peptide has a free N-terminal domain and a free C-terminal domain; to a single-chain fusion protein precursor thereof, and to a method of activating said single-chain fusion protein precursor.

It is provided new chemical entities allowing simultaneous diagnosis and treatment of cancers. More specifically, it is provided a theranostic compound consisting of a stabilized peptide ligand (agonists and antagonists) for the kinin B1 receptors (B1R) conjugated to specific radionuclides (e.g. .sup.64Cu) suitable for dual imaging/radiotherapy applications.

It is provided new chemical entities allowing simultaneous diagnosis and treatment of cancers. More specifically, it is provided a theranostic compound consisting of a stabilized peptide ligand (agonists and antagonists) for the kinin B1 receptors (B1R) conjugated to specific radionuclides (e.g. .sup.64Cu) suitable for dual imaging/radiotherapy applications.

The invention provides antibodies that specifically bind to Kallidin or des-Arg10-Kallidin. The invention also provides pharmaceutical compositions, as well as nucleic acids encoding anti-Kallidin or des-Arg10-Kallidin antibodies, recombinant expression vectors and host cells for making such antibodies, or fragments thereof. Methods of using antibodies of the invention to modulate Kallidin or des-Arg10-Kallidin activity or detect Kallidin or des-Arg10-Kallidin or, either in vitro or in vivo, are also provided by the invention. The invention further provides methods of making antibodies that specifically bind to des-Arg.sub.9-Bradykinin and des-Arg.sub.10-Kallidin-like peptide.

Bradykinin B1 receptor (B1R) targeting peptides and compounds are radiolabelled with radioisotopes that are suitable for imaging and/or radiotherapy. The radiolabelled peptides and compounds have utility in imaging tissues expressing or overexpressing B1R and/or treating diseases or conditions in which B1R is expressed or overexpressed, including cancer.

Bradykinin B1 receptor (B1R) targeting peptides and compounds are radiolabelled with radioisotopes that are suitable for imaging and/or radiotherapy. The radiolabelled peptides and compounds have utility in imaging tissues expressing or overexpressing B1R and/or treating diseases or conditions in which B1R is expressed or overexpressed, including cancer.

The present invention relates generally to novel biological and purified peptides as bradykinin receptor modulators for use in the treatment and/or prevention of inflammatory diseases, pain, hyperalgesia, cardiovascular and/or cerebral ischemic diseases, in a subject in need thereof.