Abstract: The present invention provides biodegradable, biomimetic particles for interacting with cells, including immune cells. In various embodiments, the particles comprise a polymer blend comprising a polyester, such as poly(lactic-co-glycolic acid) (PLGA) and a polyamine, such as poly(beta-amino ester) (PBAE). The particles further comprise, on their surface, one or more ligands for one or more cell surface receptor(s) or cell surface molecule(s). In some embodiments, the cell surface receptor or cell surface molecule is on an immune cell, such as a lymphocyte (T cell or B cell), natural killer cell, dendritic cell, or other cell of the immune system or tumor microenvironment.

Abstract: The presently disclosed subject matter provides compositions, methods, and kits comprising shape memory particles that can be used for delivering a drug and/or treating a disease or disorder in a patient. Specifically, shape changes in the presently disclosed shape memory particles can be used to control drug delivery spatially and/or temporally in a patient. Also provided are compositions, methods, and kits comprising nanoparticles and hypoxia-inducible factor (HIF) inhibitors with or without chemotherapeutic agents for inhibiting HIF activity in a patient and/or treating a hypoxia-associated disease or disorder.

Abstract: The present invention provides microparticle compositions comprising anti-angiogenic peptides, as well as methods of treatment, including for macular degeneration.

Abstract: A DNA plasmid useful for diagnostic and therapeutic gene therapy is disclosed. Improvements to gene therapy methods known in the art are provided to ensure cancer-targeting, high efficacy, and long durability of expression. The DNA plasmid is combined with compositions of polymeric nanoparticles for non-viral gene therapy to treat cancer, including hepatocellular carcinoma and prostate cancer.

Abstract: The present invention in various aspects and embodiments, involves methods for treating Tie2-related vascular permeability by administering one or more collagen IV-derived biomimetic peptides and involves compositions for treating Tie2-related vascular permeability comprising one or more collagen IV-derived biomimetic peptides. Such peptides can promote the Tie2 agonist activities of Angiopoietin 2 (Ang2), thereby stabilizing vasculature and/or lymphatic vessels.

Abstract: Degradable polymers were synthesized that self-assemble with nucleic acids, proteins, hydrophobic drugs, and other small molecules to form particles that are effective for delivery into a cell, tissue and/or organism either in vitro or in vivo. The presently disclosed polymers demonstrate differential cell-type specificity, an ability to promote endosomal escape to protect the cargos from degradation and enhance delivery to the cytoplasm, and/or bioreducibility, which enables triggered intracellular drug release to be tuned to promote optimal delivery to the target cell type. The presently disclosed materials may be used to treat a wide variety of conditions or diseases, such as cancer, cardiovascular diseases, infectious diseases, and ophthalmic diseases.

Abstract: The present invention is a new controlled drug system that can be used for targeting non-invasive neuromodulation enabled by focused ultrasound gated release of one or more small molecule neuromodulatory agents.

Abstract: The present invention in various aspects and embodiments involves pharmaceutical compositions of peptides derived from the ?5 fibril of type IV collagen, and uses thereof for medical treatment. The peptides target ?5?1 and ?V?3 integrins, and inhibit signaling through multiple receptors, and find use for inhibiting vascular permeability, angiogenesis, lymphangiogenesis.

Abstract: The presently disclosed subject matter provides compositions and methods for using a non-spherical biomimetic artificial cell comprising a three-dimensional microparticle or nanoparticle having an asymmetrical shape and a supported lipid bilayer (SLB). The non-spherical biomimetic artificial cells can be used in cell biomimicry and for active targeting mediated drug delivery.

Abstract: Degradable polymers were synthesized that self-assemble with DNA to form particles that are effective for gene delivery. Small changes to polymer synthesis conditions, particle formulation conditions, and polymer structure provides significant changes to efficacy in a cell-type dependent manner. Polymers presented here are more effective than commercially available materials, such as LIPOFECTAMINE 2000™, FUGENE®, or polyethylenimine (PEI), for gene delivery to cancerous fibroblasts or human primary fibroblasts. The presently disclosed materials may be useful for cancer therapeutics and regenerative medicine.

Abstract: The presently disclosed subject matter provides compositions, methods, and kits comprising shape memory particles that can be used for delivering a drug and/or treating a disease or disorder in a patient. Specifically, shape changes in the presently disclosed shape memory particles can be used to control drug delivery spatially and/or temporally in a patient. Also provided are compositions, methods, and kits comprising nanoparticles and hypoxia-inducible factor (HIF) inhibitors with or without chemotherapeutic agents for inhibiting HIF activity in a patient and/or treating a hypoxia-associated disease or disorder.

Abstract: Mimetic peptides having anti-angiogenic and anti-tumorigenic properties and methods of their use for treating cancer, ocular diseases, such as age-related macular degeneration, and other-angiogenesis-dependent diseases are disclosed. More particularly, an isolated peptide comprising the amino acid sequence LRRFSTAPFAFIDINDVINF, which exhibits anti-angiogenic activity in endothelial cell proliferation, migration, adhesion, and tube formation assays, anti-migratory activity in human breast cancer cells in vitro, anti-angiogenic and anti-tumorigenic activity in vivo in breast cancer xenograft models, and age-related macular degeneration models is disclosed. The isolate peptide also exhibits anti-lymphangiogenic and directly anti-tumorigenic properties.

Abstract: Degradable polymers were synthesized that self-assemble with DNA to form particles that are effective for gene delivery. Small changes to polymer synthesis conditions, particle formulation conditions, and polymer structure provides significant changes to efficacy in a cell-type dependent manner. Polymers presented here are more effective than commercially available materials, such as LIPOFECTAMINE 2000™, FUGENE®, or polyethylenimine (PEI), for gene delivery to cancerous fibroblasts or human primary fibroblasts. The presently disclosed materials may be useful for cancer therapeutics and regenerative medicine.

Abstract: Mimetic peptides having anti-angiogenic and anti-tumorigenic properties and methods of their use for treating cancer, ocular diseases, such as age-related macular degeneration, and other-angiogenesis-dependent diseases are disclosed. More particularly, an isolated peptide comprising the amino acid sequence LRRFSTAPFAFIDINDVINF, which exhibits anti-angiogenic activity in endothelial cell proliferation, migration, adhesion, and tube formation assays, anti-migratory activity in human breast cancer cells in vitro, anti-angiogenic and anti-tumorigenic activity in vivo in breast cancer xenograft models, and age-related macular degeneration models is disclosed. The isolate peptide also exhibits anti-lymphangiogenic and directly anti-tumorigenic properties.

Abstract: A layer-by-layer (LbL) system, which alternately ionically complexes anionic AuNPs to two unique cationic polymers (disulfide-reducible and hydrolytically degradable) and two anionic nucleic acids, is disclosed.

Abstract: Mimetic peptides having anti-angiogenic and anti-tumorigenic properties and methods of their use for treating cancer, ocular diseases, such as age-related macular degeneration, and other-angiogenesis-dependent diseases are disclosed. More particularly, an isolated peptide comprising the amino acid sequence LRRFSTAPFAFIDINDVINF, which exhibits anti-angiogenic activity in endothelial cell proliferation, migration, adhesion, and tube formation assays, anti-migratory activity in human breast cancer cells in vitro, anti-angiogenic and anti-tumorigenic activity in vivo in breast cancer xenograft models, and age-related macular degeneration models is disclosed. The isolate peptide also exhibits anti-lymphangiogenic and directly anti-tumorigenic properties.

Abstract: Degradable polymers were synthesized that self-assemble with nucleic acids, proteins, hydrophobic drugs, and other small molecules to form particles that are effective for delivery into a cell, tissue and/or organism either in vitro or in vivo. The presently disclosed polymers demonstrate differential cell-type specificity, an ability to promote endosomal escape to protect the cargos from degradation and enhance delivery to the cytoplasm, and/or bioreducibility, which enables triggered intracellular drug release to be tuned to promote optimal delivery to the target cell type. The presently disclosed materials may be used to treat a wide variety of conditions or diseases, such as cancer, cardiovascular diseases, infectious diseases, and ophthalmic diseases.

Abstract: A layer-by-layer (LbL) system, which alternately ionically complexes anionic AuNPs to two unique cationic polymers (disuifide-reducible and hydrolytically degradable) and two anionic nucleic acids, is disclosed.

Abstract: Degradable polymers were synthesized that self-assemble with DNA to form particles that are effective for gene delivery. Small changes to polymer synthesis conditions, particle formulation conditions, and polymer structure provides significant changes to efficacy in a cell-type dependent manner. Polymers presented here are more effective than commercially available materials, such as LIPOFECTAMINE 2000™, FUGENE®, or polyethylenimine (PEI), for gene delivery to cancerous fibroblasts or human primary fibroblasts. The presently disclosed materials may be useful for cancer therapeutics and regenerative medicine.

Abstract: Degradable polymers were synthesized that self-assemble with DNA to form particles that are effective for gene delivery. Small changes to polymer synthesis conditions, particle formulation conditions, and polymer structure provides significant changes to efficacy in a cell-type dependent manner. Polymers presented here are more effective than commercially available materials, such as LIPOFECTAMINE 2000™, FUGENE®, or polyethylenimine (PEI), for gene delivery to cancerous fibroblasts or human primary fibroblasts. The presently disclosed materials may be useful for cancer therapeutics and regenerative medicine.