The invention provides polymers and polymer-based nano-structures, in particular, polymers and polymer network to which biomolecules (e.g., proteins, antibodies, peptide aptamers) can be covalently conjugated and stably encapsulated therein and be controllably delivered and released upon degradation of the nano-structures in response to specific microenvironment, and compositions and methods of preparation and use thereof.

Nanoparticles useful for drug delivery are described. In one aspect, the nanoparticles contain poly(amine-co-ester)s or poly(amine-co-amide)s (PACE) modified with poly(ethylene glycol) (PACE-PEG), and can be optionally blended with a second PACE polymer optionally containing endgroup modifications. In another aspect, the nanoparticles contain a core containing a PACE polymer optionally containing endgroup modifications, and a polymeric surfactant non-covalently conjugated to the surface of the nanoparticles. The nanoparticles contain a peptide or protein targeting moiety that is covalently conjugated to the PACE-PEG polymer or to the surfactant on the surface of the nanoparticles via a linkage that contains a succinimide or substituted sulfone moiety, respectively. The nanoparticles provide as a versatile platform for the delivery of nucleic acids, such as mRNA.

The present invention relates to nanoparticles for encapsulating biologically active compounds, comprising a matrix of new polymer conjugates. The invention also relates to a process for producing both the conjugates and nanoparticles, to compositions containing said conjugates or nanoparticles, and applications thereof. The invention is applicable in the pharmaceutical sector and in the nanotechnology sector.

Disclosed are Somatostatin receptor ligands comprising a peptide moiety, pharmaceutical compositions and uses thereof. Disclosed are also synthetic Somatostatin receptor ligands comprising a cyclic peptide moiety and an active agent moiety covalently bonded to the cyclic peptide moiety through a nitrogen atom of a side chain functional group of an internal residue of the cyclic peptide moiety, pharmaceutical compositions and uses thereof. Disclosed are also synthetic Somatostatin receptor ligands comprising a cyclic peptide moiety and a nanoparticle active agent moiety covalently bonded to the cyclic peptide moiety, pharmaceutical compositions and uses thereof.

The present invention provides a novel therapeutic agent for treating inflammatory diseases which reduces the pro-inflammatory response and increases M2 macrophages according to the repolarization of macrophages, thereby exhibiting fewer side effects and excellent anti-inflammatory effects even at low doses compared to conventional steroid anti-inflammatory agent.

Disclosed are Somatostatin receptor ligands comprising a peptide moiety, pharmaceutical compositions and uses thereof. Disclosed are also synthetic Somatostatin receptor ligands comprising a cyclic peptide moiety and an active agent moiety covalently bonded to the cyclic peptide moiety through a nitrogen atom of a side chain functional group of an internal residue of the cyclic peptide moiety, pharmaceutical compositions and uses thereof. Disclosed are also synthetic Somatostatin receptor ligands comprising a cyclic peptide moiety and a nanoparticle active agent moiety covalently bonded to the cyclic peptide moiety, pharmaceutical compositions and uses thereof.

Novel siRNA and shRNA nanocapsules and delivery methods are disclosed herein. These siRNA and shRNA nanocapsules and delivery methods are highly robust and effective. This invention provides a platform for RNAi delivery with low toxicity and long intracellular half-life for practical therapeutic applications.

The present invention is directed to a nucleic acid suitable for use in treatment or prophylaxis of an infection with a coronavirus, preferably with a Coronavirus SARS-CoV-2, or a disorder related to such an infection, preferably COVID-19. The present invention is also directed to compositions, polypeptides, and vaccines. The compositions and vaccines preferably comprise at least one of said nucleic acid sequences, preferably nucleic acid sequences in association a lipid nanoparticle (LNP). The invention is also directed to first and second medical uses of the nucleic acid, the composition, the polypeptide, the combination, the vaccine, and the kit, and to methods of treating or preventing a coronavirus infection, preferably a Coronavirus infection.

This document provides methods and materials related to treating cancer. For example, methods and materials for using particles (e.g., nanoparticles) containing (a) one or more molecules having the ability to bind to a cancer cell (e.g., a human breast cancer cell) and (b) one or more molecules having the ability to bind to an APC (e.g., a human macrophage) to treat cancer are provided.

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.