This invention provides a method for treating a subject afflicted with a hematologic malignancy comprising administering to the subject an agent targeting a hematologic malignancy-associated antigen, wherein the subject has a low peripheral cancerous cell burden. This invention also provides a method for treating a subject afflicted with a hematologic malignancy and having a high peripheral cancerous cell burden, comprising (i) medically lowering the subject's peripheral cancerous cell burden, and (ii) while the subject's peripheral cancerous cell burden is still low, administering to the subject an agent targeting a hematologic malignancy-associated antigen. Particularly envisioned are the subject methods for treating acute myeloid leukemia using an anti-CD33 antibody labeled with an alpha-emitting isotope, such as .sup.225Ac-HuM195.

The present invention provides antibody polypeptides with binding specificity for prostate specific antigen (PSA), 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

Compositions and methods are described for stabilizing a radio-iodinated monoclonal IgG antibody for up to 17 days against radiolytic decomposition. The stabilized radiolabeled murine antibody binding the CD45 antigen expressed on various forms of lymphomas is useful as a radio-therapeutic and diagnostic agent in the treatment of human malignancies of hematopoietic origin, including lymphomas.

The present disclosure provides methods for site-selectively crosslinking payloads to antibodies and other proteins. This can be accomplished using traceless affinity labels designed to label target proteins with bio-orthogonally reactive entities (ORE) using the compositions and methods described herein.

This invention provides a method for depleting a subject's hematopoietic stem cells that includes administering to the subject an effective amount of a radiolabeled antibody against CD34, CD117, or CD135, where preferred radiolabels include .sup.131I and .sup.225Ac. This invention also provides a method for treating a subject afflicted with a non-cancerous disorder treatable via genetically edited cell therapy, where the method includes (i) administering to the subject an amount of the radiolabeled antibody effective to deplete the subject's hematopoietic stem cells, and (ii) after a suitable time period, performing the therapy on the subject to treat the subject's disorder. Finally, this invention provides articles of manufacture for performing the subject methods.

The present disclosure relates generally to immunoglobulin-related compositions (e.g., antibodies or antigen binding fragments thereof) that can bind to the CDS 3 protein. The antibodies of the present technology are useful in methods for detecting and treating Alzheimer's disease or a CD33-associated cancer in a subject in need thereof.

Provided are compositions and methods for treating cancers and precancerous proliferative disorders in a mammalian subject that involve the combination use of a radiotherapeutic agent, such as a radiolabeled CD33, DR5, 5T4, HER2, HER3, or TROP2 targeting agent, and a CD47 checkpoint inhibitor, such as a SIRPα-IgG Fc fusion protein or a monoclonal antibody against CD47 or SIRPα.

Provided are compositions and methods for treating cancers and precancerous proliferative disorders in a mammalian subject that involve the combination use of a radiotherapeutic agent, such as a radiolabeled CD33, DR5, 5T4, HER2, HER3, or TROP2 targeting agent, and a CD47 checkpoint inhibitor, such as a SIRPα-IgG Fc fusion protein or a monoclonal antibody against CD47 or SIRPα.

Provided herein are conjugated immunoglobulins and methods for generating conjugated immunoglobulins using a microbial transglutaminase.

This invention provides a method for treating a subject afflicted with a hematologic malignancy comprising administering to the subject an agent targeting a hematologic malignancy-associated antigen, wherein the subject has a low peripheral cancerous cell burden. This invention also provides a method for treating a subject afflicted with a hematologic malignancy and having a high peripheral cancerous cell burden, comprising (i) medically lowering the subject's peripheral cancerous cell burden, and (ii) while the subject's peripheral cancerous cell burden is still low, administering to the subject an agent targeting a hematologic malignancy-associated antigen. Particularly envisioned are the subject methods for treating acute myeloid leukemia using an anti-CD33 antibody labeled with an alpha-emitting isotope, such as .sup.225Ac-HuM195.