The presently disclosed subject matter relates to immunoswitch particles that switch off immunosuppressive pathways on tumor cells or immunosuppressive molecules induced by tumor cells in the tumor microenvironment, or virus infected cells or immunosuppressive molecules induced by virus infected cells in the microenvironment surrounding the virus infected cells, while simultaneously switching on co-stimulatory or co-inhibitory pathways on T cells, as well as method for converting immunosuppressive infections.

The present disclosure relates to salvianolic acid-gelatin conjugate load retentive hydrogel nanoparticles useful for oral delivery of salvianolic acid, pharmaceutical compositions comprising the same, and methods of use and preparation thereof.

The present invention relates to pharmaceutical composition for the oral delivery of Pentosan Polysulfate sodium (PPS). In particular, the invention discloses compositions of PPS in form of nanoparticles with a suitable polymer aimed to improve the PPS absorption in the small intestine and reduce or eliminate the side effects in the colon.

The present disclosure relates to cleavable conjugates (for example, particle-based or antibody-based conjugates) of TLR7/8 agonists (for example, 1H-imidazo[4,5-c]quinoline derivatives) containing a conjugation linker, a cleavable linker, and a self-eliminating linker. The present disclosure also related to methods for preparation of the cleavable conjugates, uses thereof for stimulating an effective immune response, and uses thereof for the treatment of cancer.

Described herein are polymeric drug-carrying nanogels that are capable of targeting to P-selectin for the treatment of cancer and other diseases and conditions associated with P-selectin. Furthermore, in certain embodiments, the nanogels presented here offer a drug release mechanism based on acidic pH in the microenvironment of a tumor, thereby providing improved treatment targeting capability and allowing use of lower drug doses, thereby reducing toxicity.

A delivery device for an active agent comprises nanoparticles based on a biopolymer such as starch. The delivery device may also be in the form of an aptamer-biopolymer-active agent conjugate wherein the aptamer targets the device for the treatment of specific disorders. The nanoparticles may be made by applying a high shear force in the presence of a crosslinker. The particles may be predominantly in the range of 50-150 nm and form a colloidal dispersion of crosslinked hydrogel particles in water. The biopolymer may be functionalized. The aptamer may be conjugated directly to the cross-linked biopolymers. The active agent may be a drug useful for the treatment of cancer. The delivery device survives for a period of time in the body sufficient to allow for the sustained release of a drug and for the transportation and uptake of the conjugate into targeted cells. However, the biopolymer is biocompatible and resorbable.

An anti-infective composition comprising glycogen or phytoglycogen nanoparticles is provided.

The present invention relates to compounds, compositions and methods comprising nanoparticles (NP) that are based on hyaluronic acid (HLA) that have been modified with hydrophobic moieties that can entrap FASN inhibitor compounds. In one embodiment, the FASN inhibitor compounds include Orlistat. In one embodiment, the hydrophobic moieties comprise 5-CA, Pba, or ODA, or combinations thereof. In a variation, the present invention relates to a composition comprising NPs based upon HLA, Orlistat, one or more of the hydrophobic moieties comprising 5-CA, Pba, or ODA, and one or more of members selected from the group consisting of PEG and a dilute solution containing SDS.

A method of delivering a compound of interest to the lungs of a subject by the intravenous injection of Sertoli cells loaded with a plurality of chitosan nanoparticles coupled with the compound of interest is provided. Testis-derived rat Sertoli cells were pre-loaded with chitosan nanoparticles coupled with or without the drug curcumin, pre-labeled with a fluorescent cell marker and then injected intravenously into the control or asthmatic mouse model host. Intact pre-loaded, pre-labeled Sertoli cells were present in the lungs at 15 minutes post-injection, appeared entrapped in the pulmonary pre-capillary vascular bed around alveolar sacs but were not present one hour post-injection although Sertoli cell label and cellular debris was. Most of the injected nanoparticle load (70%) and curcumin load (80%) was present in the lungs 15 minutes post-injection, and remained at 70% and 80%, respectively, one hour post-injection.

Compounds and compositions comprising glycogen or phytoglycogen nanoparticles are provided that suppress type I interferon innate immune responses. The glycogen or phytoglycogen nanoparticles in the composition are suitably cationized, in one embodiment, functionalized with an amino group.