Abstract: Described herein are novel rapid and reliable methods of detection of extracellular vesicles and quantifying extracellular vesicle concentrations and absolute number from various sources, including raw cell harvest. The methods described herein comprise detection of intrinsic fluorescence of extracellular vesicles in biological samples. Extracellular vesicles analyzed by the methods of this application have a stereotypical elution profile distinct from known contaminants. The methods described herein are a significant improvement over the state of the art and fulfills an unmet need in the field of extracellular vesicle manufacturing and quality control.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using a protein newly-identified to be enriched on the surface of exosomes. Specifically, the present invention provides methods of using the proteins for affinity purification of exosomes. It also provides methods of localizing a therapeutic peptide on exosomes, and targeting exosomes to a specific organ, tissue or cell by using the proteins. The methods involve generation of surface-engineered exosomes that include one or more of the exosome proteins at higher density, or a variant or a fragment of the exosome protein.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using proteins newly identified to be enriched in the lumen of exosomes. Specifically, the present invention provides methods of localizing a therapeutic peptide or protein in exosomes. The methods involve generation of lumen-engineered exosomes that include one or more of the exosome proteins at higher concentrations, a modification or a fragment of the exosome protein, or a fusion protein of the exosome protein and a therapeutic or a cargo protein.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using a protein newly-identified to be enriched on the surface of exosomes. Specifically, the present invention provides methods of using the proteins for affinity purification of exosomes. It also provides methods of localizing a therapeutic peptide on exosomes, and targeting exosomes to a specific organ, tissue or cell by using the proteins. The methods involve generation of surface-engineered exosomes that include one or more of the exosome proteins at higher density, or a variant or a fragment of the exosome protein.

Abstract: Described herein are novel rapid and reliable methods of detection of extracellular vesicles and quantifying extracellular vesicle concentrations and absolute number from various sources, including raw cell harvest. The methods described herein comprise detection of intrinsic fluorescence of extracellular vesicles in biological samples. Extracellular vesicles analyzed by the methods of this application have a stereotypical elution profile distinct from known contaminants. The methods described herein are a significant improvement over the state of the art and fulfills an unmet need in the field of extracellular vesicle manufacturing and quality control.

Abstract: The present disclosure relates to therapeutic exosomes enriched in proteins that are present in the luminal surface of exosomes. The present disclosure provides methods of manufacturing exosomes enriched in proteins that are present in the luminal surface of exosomes, method of associating a therapeutic peptide or protein to the luminal surface of exosomes, and method of use, e.g., methods of therapeutic or diagnostic use. The methods of manufacture involve generating of luminal-surface-engineered exosomes that include one or more of the EV, e.g., exosome proteins at concentrations higher that those observed in wild type exosomes, a modification or a fragment of the EV, e.g., exosome protein, or a fusion protein of the EV, e.g., exosome protein, and a payload, e.g., biologically active molecule such as a therapeutic protein.

Abstract: 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.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using proteins newly identified to be enriched in the lumen of exosomes. Specifically, the present invention provides methods of localizing a therapeutic peptide or protein in exosomes. The methods involve generation of lumen-engineered exosomes that include one or more of the exosome proteins at higher concentrations, a modification or a fragment of the exosome protein, or a fusion protein of the exosome protein and a therapeutic or cargo protein.

Abstract: Disclosed herein are extracellular vesicles comprising an immunomodulating component. Also provided are methods for producing the extracellular vesicles and methods for using the extracellular vesicles for treating cancer, GvHD, and autoimmune diseases.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using a protein newly-identified to be enriched on the surface of exosomes. Specifically, the present invention provides methods of using the proteins for affinity purification of exosomes. It also provides methods of localizing a therapeutic peptide on exosomes, and targeting exosomes to a specific organ, tissue or cell by using the proteins. The methods involve generation of surface-engineered exosomes that include one or more of the exosome proteins at higher density, or a variant or a fragment of the exosome protein.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using a protein newly-identified to be enriched on the surface of exosomes. Specifically, the present invention provides methods of using the proteins for affinity purification of exosomes. It also provides methods of localizing a therapeutic peptide on exosomes, and targeting exosomes to a specific organ, tissue or cell by using the proteins. The methods involve generation of surface-engineered exosomes that include one or more of the exosome proteins at higher density, or a variant or a fragment of the exosome protein.

Abstract: Described herein are novel rapid and reliable methods of detection of extracellular vesicles and quantifying extracellular vesicle concentrations and absolute number from various sources, including raw cell harvest. The methods described herein comprise detection of intrinsic fluorescence of extracellular vesicles in biological samples. Extracellular vesicles analyzed by the methods of this application have a stereotypical elution profile distinct from known contaminants. The methods described herein are a significant improvement over the state of the art and fulfills an unmet need in the field of extracellular vesicle manufacturing and quality control.

Abstract: Disclosed herein are extracellular vesicles comprising an immunomodulating component. Also provided are methods for producing the extracellular vesicles and methods for using the extracellular vesicles for treating cancer, GvHD, and autoimmune diseases.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using proteins newly identified to be enriched in the lumen of exosomes. Specifically, the present invention provides methods of localizing a therapeutic peptide or protein in exosomes. The methods involve generation of lumen-engineered exosomes that include one or more of the exosome proteins at higher concentrations, a modification or a fragment of the exosome protein, or a fusion protein of the exosome protein and a therapeutic or cargo protein.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using a protein newly-identified to be enriched on the surface of exosomes. Specifically, the present invention provides methods of using the proteins for affinity purification of exosomes. It also provides methods of localizing a therapeutic peptide on exosomes, and targeting exosomes to a specific organ, tissue or cell by using the proteins. The methods involve generation of surface-engineered exosomes that include one or more of the exosome proteins at higher density, or a variant or a fragment of the exosome protein.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using a protein newly-identified to be enriched on the surface of exosomes. Specifically, the present invention provides methods of using the proteins for affinity purification of exosomes. It also provides methods of localizing a therapeutic peptide on exosomes, and targeting exosomes to a specific organ, tissue or cell by using the proteins. The methods involve generation of surface-engineered exosomes that include one or more of the exosome proteins at higher density, or a variant or a fragment of the exosome protein.

Abstract: The present invention relates to methods of preparing a therapeutic exosome using a protein newly-identified to be enriched on the surface of exosomes. Specifically, the present invention provides methods of using the proteins for affinity purification of exosomes. It also provides methods of localizing a therapeutic peptide on exosomes, and targeting exosomes to a specific organ, tissue or cell by using the proteins. The methods involve generation of surface-engineered exosomes that include one or more of the exosome proteins at higher density, or a variant or a fragment of the exosome protein.