The invention relates to anti-CAIX antibodies comprising a heavy chain constant region comprising one or more amino acid substitutions compared to a wild-type IgG, wherein the one or more amino acid substitutions reduce the affinity of the antibody for the neonatal Fc receptor (FcRn), thereby reducing the serum half-life of the modified antibody compared to a wild-type antibody of class IgG. The one or more amino acid modification having the effect of reducing FcRn binding is selected from positions His310, His433, His435, His436, Ile253. Antibodies of the present invention are particularly suited for use in radioimmunotherapy.

The present technology is directed to compounds, compositions, medicaments, and methods related to the treatment of cancers expressing PSMA. The compounds are of Formulas I & II

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or pharmaceutically acceptable salts thereof. The present technology is especially well-suited for use in treating prostate cancer.

Disclosed are engineered anti-prostate stem cell antigen (PSCA) fusion proteins and uses thereof to detect and treat cancers expressing PSCA.

The invention provides a method for the formation of a tissue-targeting thorium complex, said method comprising; a) forming an octadentate chelator comprising four hydroxypyridinone (HOPO) moieties, substituted in the N-position with a C.sub.1-C.sub.3alkyl group, and a coupling moiety terminating in a carboxylic acid group; b) coupling said octadentate chelator to at least one tissue-targeting peptide or protein comprising at least one amine moiety by means of at least one amide-coupling reagent whereby to generate a tissue-targeting chelator; and c) contacting said tissue-targeting chelator with an aqueous solution comprising an ion of at least one alpha-emitting thorium isotope. A method of treatment of a neoplastic or hyperplastic disease comprising administration of such a tissue-targeting thorium complex, as well as the complex and corresponding pharmaceutical formulations are also provided.

The invention provides a method for the formation of a tissue-targeting thorium complex, said method comprising; a) forming an octadentate chelator comprising four hydroxypyridinone (HOPO) moieties, substituted in the N-position with a methyl group, and a coupling moiety terminating in a carboxylic acid group; b) coupling said octadentate chelator to at least one tissue-targeting moiety targeting HER2; and c) contacting said tissue-targeting chelator with an aqueous solution comprising an ion of at least one alpha-emitting thorium isotope. A method of treatment of a neoplastic or hyperplastic disease comprising admistration of such a tissue-targeting thorium complex, as well as the complex and corresponding pharmaceutical formulations are also provided.

The present invention relates to the use of T cell redirecting, bispecific, in particular trifunctional, antibodies for the treatment of a cancer disease, wherein said antibody is administered via the subcutaneous route. Thereby, the release of proinflammatory cytokines is reduced and, simultaneously, the release of inhibitory cytokines is substantially suppressed. That treatment by bispecific, in particular trifunctional, antibodies may be combined in a combination therapy with other anti-cancer drugs.

The present invention provides a tissue-targeting complex comprising a tissue targeting moiety, an octadentate hydroxypyridinone-containing ligand and the ion of an alpha-emitting thorium radionuclide. The invention additionally provides therapeutic methods employing such complexes, methods of their production and use, and kits and pharmaceutical compositions comprising such complexes.

The invention described herein is related to antibodies directed to the antigen TIM-1 and uses of such antibodies for the treatment of cancer (e.g., renal and ovarian cancer). In particular, there are provided fully human monoclonal antibodies directed to the antigen TIM-1. Isolated polynucleotide sequences encoding, and amino acid sequences comprising, heavy and light chain immunoglobulin molecules, particularly sequences corresponding to contiguous heavy and light chain sequences spanning the framework regions (FR's) and/or complementarity determining regions (CDR's), specifically from FR1 through FR4 or CDR1 through CDR3, are provided. Hybridomas or other cell lines expressing such immunoglobulin molecules and monoclonal antibodies are also provided.

A novel acid labile linker for targeted delivery and/or controlled phosphoryl hydroxypropylglycine release of agents is introduced herein. There is further disclosed a method of developing a therapeutic or diagnostic conjugate for targeted cell-specific delivery. More specifically, the invention is focused on linkers used to deliver anticancer agents to specific tumor cells.

In various embodiments various cancer specific antibodies and immunoconjugates are provided. In certain embodiments the antibodies specifically bind and are internalized into a prostate cancer cell, where the antibodies specifically binds cells that express or overexpress a CD46, and where the antibodies specifically bind sushi domain 1 of said CD46 (CD46 CPP1).