Methods and composition for cell-based therapy as well as somatostatin receptor-based therapy are described. For example, in certain aspects methods for administering an anti-tumor therapy using a signaling defective somatostatin receptor mutant are described. Furthermore, the invention provides compositions and methods involve a somatostatin constitutively active somatostatin receptor mutant.

Provided herein are radiopharmaceutical compositions and uses thereof. The radiopharmaceutical compositions can comprise one or more stabilizing agents, an aqueous vehicle, and a conjugate that comprises a targeting ligand and a radionuclide bound to a metal chelator. The targeting ligand can be a small molecule compound or a peptide such as a monocyclic peptide. The targeting ligand can be configured to bind with a tumor target. The stabilizing agent can comprise a radiolysis stabilizer, a free metal chelator, and/or a pH stabilizer. Further provided herein are methods of preparing the radiopharmaceutical compositions and methods of treating cancer by administering the described radiopharmaceutical compositions.

Methods and composition for cell-based therapy as well as somatostatin receptor-based therapy are described. For example, in certain aspects methods for administering an anti-tumor therapy using a signaling defective somatostatin receptor mutant are described. Furthermore, the invention provides compositions and methods involve a somatostatin constitutively active somatostatin receptor mutant.

Methods and composition for cell-based therapy as well as somatostatin receptor-based therapy are described. For example, in certain aspects methods for administering an anti-tumor therapy using a signaling defective somatostatin receptor mutant are described. Furthermore, the invention provides compositions and methods involve a somatostatin constitutively active somatostatin receptor mutant.

A cancer targeting composition, kit, and method for treatment of cancer cells overexpressing somatostatin receptors is disclosed. The composition includes a radioisotope, a chelator, and a targeting moiety. The chelator includes a nitrogen ring structure including a tetraazacyclododecane, a triazacyclononane, and/or a tetraazabicyclo [6.6.2] hexadecane derivative. The targeting moiety includes a somatostatin receptor targeting peptide. The somatostatin receptor targeting peptide includes an octreotide derivative. The targeting moiety is chelated to the radioisotope by the chelator whereby the cancer cells are targeted for elimination.

Provided herein are radiopharmaceutical compositions and uses thereof. The radiopharmaceutical compositions can comprise one or more stabilizing agents, an aqueous vehicle, and a conjugate that comprises a targeting ligand and a radionuclide bound to a metal chelator. The targeting ligand can be a small molecule compound or a peptide such as a monocyclic peptide. The targeting ligand can be configured to bind with a tumor target. The stabilizing agent can comprise a radiolysis stabilizer, a free metal chelator, and/or a pH stabilizer. Further provided herein are methods of preparing the radiopharmaceutical compositions and methods of treating cancer by administering the described radiopharmaceutical compositions.

The present invention relates to a compound that inhibits the activity of a degrading enzyme for use in combination with a therapeutic or diagnostic compound, preferably a moiety conjugated peptide, in the diagnosis and/or treatment of a disease, in particular cancer, to enhance targeting of the therapeutic or diagnostic compound to the disease site.

A process for the preparation of a carrier-free Ga-68 solution from an irradiated Zn target, systems comprising components used in the process, and compositions comprising Ga-68 prepared by the process. Purification of Ga-68 is carried out by feeding an irradiation target solution comprising Zn-68, Ga-68 and solid target assembly metals into a system comprising three chromatography columns in succession.

The present invention relates to a pharmaceutical cold kit composition comprising a chelating agent linked to somatostatin receptor binding organic moiety, a stabilizer, a buffer, and a caking agent or bulking agent, wherein the composition is free of sequestering agent. Further, the present invention also relates to the process of preparing reconstituted or radiolabeled solution composition having high in use stability and radiochemical purity and use thereof for diagnostic and/or therapeutic purposes.

The present application concerns a microfluidic cassette for synthesizing a radiotracer including a microfluidic circuit in a support card that includes at least one intake for supply by a vial, at least one isotope port, at least one reaction chamber, at least one mixing chamber, at least one formulation chamber, and at least one connection for a syringe, linked together by capillaries. Also disclosed is a method for synthesizing a radiotracer in such a cassette.