The present invention provides a composition comprising a polymer and a natural or synthetic peptide or protein (NSPP). The composition forms a hydrogel with water. The composition is useful as a filler for cosmetic and therapeutic applications. Embodiments of the invention provide methods of treating certain conditions using the composition or hydrogel, and surgical kits for the simultaneous or sequential administration of the respective components of the composition, enabling the formation of the hydrogel in situ.

It has been established that dendrimers conjugated or complexed with the carbohydrate triantennary N-Acetylgalactosamine (triantennary-β-GalNAc) selectively accumulate within hepatocyte cells and selectively deliver therapeutic, prophylactic or diagnostic agents to the liver. Compositions of dendrimers complexed with triantennary-β-GalNAc and one or more agents to prevent, treat or diagnose a liver injury, liver disease or liver disorder in a subject in need thereof, and methods of use thereof, have been developed. The compositions are particularly suited for treating and/or ameliorating one or more symptoms of nonalcoholic fatty liver disease (NAFLD) and liver cancer, with decreased toxicity.

A star polymer of formula O[P1]-([X]-A[P2]-[Z]-[P3])n where O is a core; A is a polymer arm attached to the core; X is a linker molecule between the core and the polymer arm; Z is a linker molecule between the end of the polymer arm and P3; P1, P2 and P3 are each independently one or more pharmaceutically active compounds that act extracellularly or intracellularly, n is an integer number; [ ] denotes that the group is optional; and at least one of P1, P2 or P3 is present.

The design, synthesis, and biological evaluation of a new family of highly effective conjugate compounds, including dendrimeric moieties and branched structures, are described. Pharmaceutical compositions including the subject dendrimeric conjugates and methods of using the same are also provided. Methods of using the subject dendrimeric conjugates include delivering a cargo moiety conjugated to the dendrimeric moieties and branched structures to a cell under suitable conditions. In certain embodiments, the cell is a bacterial cell population, and the subject compounds reduce the bacterial cell population. In certain embodiments of the methods, the subject compound is capable of eradicating one or more of Gram-positive bacteria, mycobacteria, and Gram-negative bacteria. In certain embodiments of the methods, the subject compound is capable of eradicating bacterial biofilms. Methods of using the subject dendrimeric conjugates include treating a subject for a disease or condition. In certain embodiments, the disease or conditions an infectious disease.

Provided is a drug containing a liver targeting specific ligand and a thyroid hormone receptor agonist in its structure, which is a new drug structure formed by linking the liver targeting specific ligand with the thyroid hormone receptor agonist through a branched chain, a linker and a linking chain. Thyroid hormone receptors (TRs) are divided into two subtypes, TR-α and TR-β, wherein, TR-β is mainly expressed in liver, and TR-α is mainly expressed in heart, nervous system, etc. In certain embodiments, it is envisaged that the provided drug has the action of liver targeting, can specifically bring the thyroid hormone receptor agonist into liver, without entering heart and other issues, and may thereby avoid side effects caused by the action of the thyroid hormone receptor agonist on other issues, and maintain its therapeutic efficacy in the treatment of lipid metabolism disorders and related complications.

Anti-heparanase compounds for the treatment of diabetes are described. The anti-heparanase compounds are high affinity, synthetic glycopolymers that result in minimal anticoagulant activity. Stereoselective fluorinated forms of these compounds are also provided.

Anti-heparanase compounds for the treatment of diabetes are described. The anti-heparanase compounds are high affinity, synthetic glycopolymers that result in minimal anticoagulant activity. Stereoselective fluorinated forms of these compounds are also provided.

Nanoparticles and formulations for treating prostate cancer in a subject are disclosed. The nanoparticles contain a cage, such as a zeolitic imidazolate framework (“ZIF”), a surface modifying agent, a targeting ligand, and an active agent. The surface modifying ligand is attached to the outer surface of the cage and the targeting ligand is exposed to the surrounding environment. The active agent is encapsulated in the cage. The targeting ligand binds to a reproductive hormone or a receptor of a reproductive hormone. The active agents can be a ribosome inactivating protein, an apoptosis inducer, a hormone, a receptor ligand, or a nucleic acid, or a chemotherapy drug or a combination thereof, that kill and/or reduce or prevent growth or proliferation of gonadotroph cells and/or tumor cells, regulate FSH and/or LH secretion, and/or interfere with androgen production. Uses for formulations incorporating the nanoparticles for treating cancer in a subject are also disclosed.

Nanoparticles and formulations for treating prostate cancer in a subject are disclosed. The nanoparticles contain a cage, such as a zeolitic imidazolate framework (“ZIF”), a surface modifying agent, a targeting ligand, and an active agent. The surface modifying ligand is attached to the outer surface of the cage and the targeting ligand is exposed to the surrounding environment. The active agent is encapsulated in the cage. The targeting ligand binds to a reproductive hormone or a receptor of a reproductive hormone. The active agents can be a ribosome inactivating protein, an apoptosis inducer, a hormone, a receptor ligand, or a nucleic acid, or a chemotherapy drug or a combination thereof, that kill and/or reduce or prevent growth or proliferation of gonadotroph cells and/or tumor cells, regulate FSH and/or LH secretion, and/or interfere with androgen production. Uses for formulations incorporating the nanoparticles for treating cancer in a subject are also disclosed.

This invention generally relates to the field of phosphoramidite derivatives. In particular, the invention relates to N-Acetylgalactosamine phosphoramidite molecules and to conjugates of nucleic acid molecules with N-Acetylgalactosamine containing molecules. Also provided are methods for preparation of these molecules and possible uses thereof, in particular in medicine.