The present invention relates to an isolated cellular targeted delivery system comprising a CD45.sup.+ leukocyte cell comprising within said cell a complex of one or more iron binding proteins and an active ingredient as well as methods for producing such isolated cellular targeted delivery system and uses of such system for therapy, in particular for therapy of cancer.

The present invention relates to an isolated cellular targeted delivery system comprising a CD45+ leukocyte cell comprising within said cell a complex of one or more iron binding proteins and an active pharmaceutically active substance and/or label as well as methods for producing such isolated cellular targeted delivery system and uses of such system for prophylaxis, therapy, diagnosis or theragnosis, in particular for prophylactic or therapeutic vaccination, therapy of cancer, particularly metastatic cancer or inflammatory diseases.

The present invention relates to a composition for material delivery, including exosome mimetics derived from red blood cells, and a use thereof and the composition for material delivery according to an exemplary embodiment of the present invention includes exosome mimetics derived from red blood cells, which are capable of being loaded with a drug, a radioactive material, or a fluorescent material, and thus may be usefully utilized for a drug delivery use, a cell labeling use, a contrast medium, or the like, and when the composition for material delivery according to an exemplary embodiment of the present invention is used, treatment and diagnosis may be simultaneously performed.

The invention provides a method of preparing a .sup.89Zr-oxine complex of the formula

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The invention also provides a method of labeling a cell with the .sup.89Zr-oxine complex and a method for detecting a biological cell in a subject comprising administering the .sup.89Zr-oxine complex to the subject.

The invention provides a method of preparing a .sup.89Zr-oxine complex of the formula

##STR00001##

The invention also provides a method of labeling a cell with the .sup.89Zr-oxine complex and a method for detecting a biological cell in a subject comprising administering the .sup.89Zr-oxine complex to the subject.

Methods of ex vivo labeling of a biological material for in vivo imaging, methods of labeling a biological material in vivo, methods for preparing a labeling agent, and methods for in vivo imaging of a subject using a biological material labeled with a labeling agent are disclosed. In one non-limiting example, the biological material is selected from cells and the labeling agent is a .sup.89Zr-Desferrioxamine-NCS labeling agent.

The present invention relates to an isolated cellular targeted delivery system comprising a CD45+ leukocyte cell comprising within said cell a complex of one or more iron binding proteins and/or a label as well as methods for producing such isolated cellular targeted delivery system and uses of such system for therapy diagnosis and in particular for diagnosis of cancer, particularly metastatic cancer, in particular for therapy of cancer.

The instant application describes improved methods and compositions for the systemic delivery of therapeutic exosomes to a subject in need thereof. In certain embodiments, the current invention reduces the amount of exosomes delivered to liver, spleen and combinations thereof to allow greater distribution to other areas of the body such as, but not limited to, the brain, pancreas, lung, kidney, muscle. In certain embodiments, the methods involve the injection of one or multiple doses of non-therapeutic exosomes prior to the injection of a suitable therapeutic dose of exosomes with a therapeutic payload. Also included are methods to improve immune clearance of exosomes in subjects by inhibiting phagocytosis.

Compositions comprising a red blood cell (RBC) having non-toxically coupled thereto a nanoparticle having a low shear modulus or low Young's modulus of less than 10 MPa and containing a drug are provided. In one embodiment, the nanoparticles are optionally coated with protein. In another embodiment, the nanoparticle has no cell-specific targeting moiety or tissue-specific targeting moiety or organ-specific targeting moiety associated therewith. Methods of delivering selected drugs to target organs use these compositions both in vivo and ex vivo treatment of disease and for imaging.

Provided herein are single wall nanotube constructs to which are convalently linked a plurality of a bifunctional chelator, a therapeutic or a diagnostic radionuclide chelated to each bifunctional chelator and a plurality of morpholino oligonucleotides conjugated to the single wall nanotube. Also provided are single wall nanotube complexes which have the morpholino oligonucleotides on the single wall nanotube constructs hybridized to other morpholino oligonucleotides. The other morpholino oligonucleotides are each conjugated to a therapeutic antibody.