The present invention relates to the generation of lead-212 for therapeutic use. Specifically, are methods related to the generation of lead-212 based radio labelled proteins, such as radioimmunoconjugates, embodiments of the present invention.

Provided herein are monoclonal antibodies that specifically bind to melanin. The antibodies may be chimeric or humanized. Also provided herein are methods of use and methods of making the antibodies described. For example, the melanin antibodies may be used therapeutically to treat or prevent melanoma.

The present invention provides antibody polypeptides with binding specificity for human kallikrein-2 (hK2), wherein the antibody polypeptide comprises (a) a heavy chain variable region comprising the amino acid sequences of SEQ ID NO:1 and SEQ ID NO:2 and SEQ ID NO:3 and/or (b) a light chain variable region comprising the amino acid sequences of SEQ ID NO:4 and SEQ ID NO:5 and SEQ ID NO:6, and wherein the heavy chain variable region and light chain variable region comprise framework amino acid sequences from one or more human antibodies. The invention further provides use of said antibody polypeptides in the diagnosis and treatment of prostate cancer.

The present invention relates in part to the discovery of genes that are deregulated in cancer stem cells (e.g., melanoma stem cells). In some aspects, methods for treating individuals having melanoma are provided; the methods involve modulating (e.g., inducing, inhibiting, etc.) the activity of the cancer stem cell associated genes. In other aspects, cell surface genes that are upregulated in melanoma stem cells are targeted for the selective isolation, detection, and killing of cancer stem cells in melanoma. Other aspects of the invention relate to reagents, arrays, compositions, and kits that are useful for diagnosing and treating melanoma.

Antigen binding constructs that bind to CD8, as well as formulations and methods of using them, are described herein.

A Cu(I)-Catalyzed Azide-Alkyne Cycloadditions (CuAAC) ligand comprising: a catalytic core; a fluorous tag; and a linker binding the fluorous tag to the catalytic core. A method for carrying out a Cu(I)-Catalyzed Azide-Alkyne Cycloaddition reaction, comprising: combining in a solution an alkyne-tagged component, an azide-tagged component and a Cu(I)-Catalyzed Azide-Alkyne Cycloadditions (CuAAC) ligand comprising: a catalytic core; a fluorous tag; and a linker binding the fluorous tag to the catalytic core; filtering the solution through a solid phase extraction filter to remove Cu(I)-ligand catalyst and/or excess ligand.

The RI-labeled anti-MUC5AC humanized antibody of the present invention is a conjugate of a chelating agent chelated with a radionuclide and an antibody (the radionuclide is a metal nuclide that emits α particle or positron, and the antibody is a humanized antibody specifically binding to MUC5AC), and is superior in specificity for MUC5AC and accumulation in tumor. Therefore, it is extremely useful for the treatment and/or diagnosis of diseases in which MUC5AC is overexpressed, particularly cancer.

The present invention relates to B7H3-antibodies conjugated to specific chelators for radiolabeling with imaging or therapeutic radioisotopes. The invention further relates to B7H3-antibodies for treatment or theranostic use in cancer.

Provided herein is a one-step method for chelating actinium-225 to a construct comprising a chelator linked to a biomolecule, such as, an antibody or monoclonal antibody, via a bifunctional ligand in, for example, a 3-arm configuration. Also provided are methods for increasing the radiochemical yield of an actinium-225-chelant-biomolecule complex and for producing a high specific activity actinium-225 complex. The chelation is performed at a physiological temperature, about 37° C. Also provided are high specific activity actinium-225 complexes, that is, actinium-225 chelated to the chelator-biomolecule construct and pharmaceutical compositions thereof. Further provided are methods of treating a neoplastic disease or disorder with the actinium-225 complexes.

The invention provides antigen binding domains that bind myeloid cell surface antigen CD33 protein comprising the antigen binding domains that bind CD33, polynucleotides encoding them, vectors, host cells, methods of making and using them.