Two disparate biological mechanisms which predispose to the dissemination and metastases of solid tumors is described. The treatment of metastatic lesions via topical and transdermal administration of therapeutic agents, such as Type 1 Cystatins, through intact skin, is directed to the inhibition of lysosomal cysteine cathepsin proteolytic enzymatic degradation of the extracellular matrix

Zwitterionic monomers, carnitine-derived zwitterionic polymers, carnitine ester cationic monomers, carnitine ester cationic polymers, conjugate compositions including a carnitine-derived zwitterionic polymer, and related compositions' and methods are provided which have various uses including as coatings, pharmaceuticals, diagnostics, encapsulation materials, and antifouling materials, among other utilities.

Provided herein are improved delivery systems for oligonucleotides, said delivery system comprising a liposome that comprises neutral phospholipids and a P-ethoxy oligonucleotide, which targets a STAT3-encoding polynucleotide. Methods of treating patients with said delivery systems are also provided.

The disclosure relates generally to gamma polyglutamated methotrexate compositions, including delivery vehicles such as liposomes containing the gamma polyglutamated methotrexate, and methods of making and using the gamma polyglutamated methotrexate compositions to treat hyperproliferative disorders (e.g., cancer) and disorders of the immune system (e.g., inflammation and autoimmune diseases such as rheumatoid arthritis).

Zeinmersomes (ZMS) comprising zein, a phospholipid and a PEG-polymer are formulated to encapsulate a drug of interest. Olmesartan medoxomil (OM) is encapsulated in the ZMS (OM-ZMS) for oral administration and taken up by the liver where OM diffuses from the ZMS nanocarrier. OM concentrations in liver were at least 8 times higher than that measured in plasma. Established fibrosis was reversed in a thioacetamide-induced rat model of human chronic hepatic fibrosis. The OM-ZMS provides a hepatic drug delivery system that reduces the potential of side-effects caused by OM, including OM-associated sprue-like enteropathy, to treat chronic hepatic fibrosis and associated duodenal changes.

The present disclosure relates to a method of loading a toll like receptor (TLR)7/8 agonist into a liposome using remote loading and a kit of parts suitable for the loading of a TLR7/8 agonist into a liposome by said method. The present disclosure further relates to a liposome comprising a salt of a TLR7/8 agonist in the liposome interior and to the use of said liposome for stimulation of an immune response and/or treatment of a clinical condition. Finally, the present disclosure relates to a TLR7/8 agonist which is suitable for being remotely loaded into a liposome.

The present invention relates to polymersomes that contain an encapsulated drug and that exhibit chemotaxis in response to a chemical stimulus. The chemotactic polymersomes can be targeted in vivo to a location of therapeutic interest with high specificity and selectivity. The present invention also provides related pharmaceutical compositions and therapeutic methods.

Provided herein are nanocarriers for delivery of immunosuppressive agents. In some embodiments, provided herein are nanocarriers comprising a core comprising a poly(ethylene glycol)-block-poly(propylene sulfide) copolymer and least one therapeutic agent. In some embodiments, the nanocarriers may further comprise a targeting ligand displayed on a surface of the nanocarrier. The at least one therapeutic agent may be an anti-inflammatory agent. The disclosed nanocarriers may be incorporated into pharmaceutical compositions for use in methods of treating an inflammatory condition or preventing transplantation rejection in a subject.

Cells and lipid-based structures are described herein, in particular cells and lipid-based structures comprising membrane portions derived from cells having a label covalently attached thereto, as are compositions and kits comprising such cells and structures, and methods for using the cells and structures, in particular for determining membrane coverage and/or orientation as well as for screening methods/assays, and the like.

The present disclosure provides brush-poly(glycoamidoamine)-lipids (PGALs) (e.g., polymers of any one of Formulae (I)-(IV)) and methods of preparing the PGALs. A described PGAL may include poly(glycoamidoamine)-derived moieties (e.g., ##STR00001##
such as ##STR00002##
which may assist the PGAL and/or a complex of the PGAL and an agent to pass through cell membranes or be taken up by cells. Also provided are compositions including a described PGAL and an agent (e.g., polynucleotide, small molecule, peptide, or protein). The present disclosure also provides methods, kits, and uses that include or involve the PGALs or compositions for delivering an agent to a subject, tissue, or cell and/or for treating and/or preventing in a subject a range of diseases, such as genetic diseases, proliferative diseases, hematological diseases, neurological diseases, immunological diseases, gastrointestinal diseases, respiratory diseases, painful conditions, psychiatric disorders, musculoskeletal diseases, genitourinary diseases, and metabolic disorders ##STR00003##