Provided herein are composite nanoparticles, methods of making composite nanoparticles and methods of using composite nanoparticles to treat or ameliorate various diseases, such as, for example, cancer.

This invention is directed to β-1-6-glucans, compositions and devices comprising the same, and methods of use thereof in modulating immune responses. The β-1-6-glucans of certain embodiments of the invention are enriched for O-acetylated groups and/or conjugated to a solid support or linked to a targeting moiety.

Site-specific modification of proteins with microbial transglutaminase (MTG) is a powerful and versatile strategy for a controlled modification of proteins under physiological conditions. Solid-phase microbead-immobilization is used to site-specifically and efficiently attach different functional molecules important for further downstream applications to proteins of therapeutic relevance including scFV, Fab-fragment and antibodies. MTG remained firmly immobilized with no detectable column bleeding and enzyme activity was sustained during continuous operation. Immobilized MTG shows enhanced selectivity towards a certain residue in the presence of several reactive residues which are all targeted when the conjugation was carried out in solution. The generation of dual site-specifically conjugated IgG1 with immobilized and MTG in solution is reported, i.e. site-specific conjugation to glutamine and lysine residues of IgG1 antibody. Site-specific glutamine conjugation with small peptides containing a lysine residue and a functional moiety is also described.

The present invention relates to a nanoparticle comprising a polymer, α-Galactosylceramide (α-GalCer) and chitosan. The invention also relates to multivalent immunogenic compositions. The invention has particular use as a pulmonary vaccine.

The present invention relates to a multi-specific antibody conjugate (such as, a bispecific antibody conjugate), and a related composition, therapeutic method and use thereof. The antibody conjugate comprises a multispecific antibody, such as a bispecific antibody, conjugated to a nanomaterial. The antibody conjugate can be used to modulate an immune response, treat or prevent a disease or condition (e.g., a cancer, autoimmune disease, pathogen infection or inflammatory disease), etc.

Provided herein is a composition comprising a nanoparticle comprising poly(lactic acid-co-glycolic acid) (PLGA)-b-polyethylene glycol (PEG) (PLGA-PEG) copolymer formulated with polyethylenimine (PEI), and one or more cargo molecules (e.g., a nucleic acid molecule with or without a small molecule compound) associated with the nanoparticle. The nucleic acid molecule may be a plasmid or minicircle DNA expressing a gene or genes, CRISPR/Cas9 components, or an RNA molecule (e.g., small interfering RNA, miRNA, or lncRNA). Also provided are methods for delivering a cargo molecule to a cell in vitro and in vivo using the aforementioned composition.

Core-shell particles and methods of making and using thereof are described herein. The core is formed of or contains one or more hydrophobic materials or more hydrophobic materials. The shell is formed of or contains hyperbranched polyglycerol (HPG). The HPG coating can be modified to adjust the properties of the particles. Unmodified HPG coatings impart stealth properties to the particles which resist non-specific protein absorption and increase circulation in the blood. The hydroxyl groups on the HPG coating can be chemically modified to form functional groups that react with functional groups and adhere the particles to tissue, cells, or extracellular materials, such as proteins.

Embodiments of systems, methods, and compositions provided herein relate to hollow beads encapsulating single cells. Some embodiments include performing multiple co-assays on a single cell encapsulated within a hollow bead, including nucleic acid sequencing, preparing nucleic acid libraries, determining methylation status, identifying genomic variants, or protein analysis.

The present invention relates to the field of nanotechnology, in particular, to the production of biodegradable polymeric nanoparticles. The present invention provides a biodegradable polymeric nanoparticle made up of a block copolymer and a process for producing the same. The nanoparticles are produced without the use of any emulsifiers and have a size ranging from 30-120 nm. The methods of controlling the drug loading capacity are disclosed along with the process of producing entity-loaded nanoparticles. Compositions comprising the nanoparticles and their use in therapeutics, diagnostics and theranostics are also disclosed.

The present invention relates to polymeric nanoparticles comprising a pharmaceutical combination, pharmaceutical compositions comprising the same, and methods for treating certain diseases comprising administering these polymeric nanoparticles to a subject in need thereof.