Described herein are methods, formulations and kits for treating a patient with triple-negative breast cancer with nanoparticle complexes comprising a carrier protein (e.g., albumin), paclitaxel and a binding agent specific for a target antigen expressed by the cells (e.g., an anti-VEGF antibody).

The present invention provides combination therapy methods of treating a proliferative disease (such as cancer) comprising a first therapy comprising administering to an individual an effective amount of a taxane in a nanoparticle composition, and a second therapy which may include the administration of an effective amount of at least one other agent that antagonizes a PD-1 pathway in a cell.

The invention relates to modified lysines of the formula (I). The invention further relates to polypeptides comprising one or more modified lysine residues, pharmaceutical delivery systems comprising these polypeptides, pharmaceutical compositions containing them, and to their use in therapy.

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The present invention relates to a protein particle with a poorly water-soluble drug encapsulated therein and a preparation method therefor. The preparation method comprises the following steps: i) dissolving a poorly water-soluble drug and a liquid solubilizer into a good solvent; ii) partially or fully removing said good solvent from the product of step i); iii) mixing the product of step ii) with a protein; and iv) dispersing the product of step iii) in a poor solvent. The preparation method is simple and is suitable for industrial production.

Procedures for topical treatment of melanoma and skin fibrosis include administering to a mammal in need of treatment a compound including at least one BCL-2/BCL-xl inhibitor; and at least one ionic liquid. The compound can include Navitoclax dissolved in choline octanate in a concentration from approximately 150 ug/mL to approximately 160 ug/mL.

A method of treating radiation-induced skin toxicity or skin ulcers with nanoparticles after exposure to ionizing radiation and after an onset of radiation-induced skin toxicity or a radiation-induced skin ulcer by administering intravenously a suspension including fibrinogen-coated albumin nanospheres to a patient. A concentration of the suspension being sufficient to at least one of promote healing of the skin toxicity or reduce a size of the skin ulcer. The suspension can include fibrinogen-coated albumin nanospheres, sorbitol and/or caprylate. The suspension can be utilized for treating a patient to reduce an amount of blood loss in an organ of the patient or for treating a patient to mobilize stem cells or progenitor cells to accelerate healing of a wound.

The present invention provides compositions and devices for subcutaneously administering compositions comprising nanoparticles comprising an mTOR inhibitor and an albumin. The present application also provides methods of treating diseases by subcutaneously administering to an individual a composition comprising nanoparticles comprising an mTOR inhibitor and an albumin.

A method for intracellular delivery of single proteins or other cargo molecules by encapsulation within nanocapsules formed by interfacial polymerization of one or more types of monomers and selected protease cleavable cross-linkers is provided. The thin positively charged capsules are readily brought into the cytosol of target cells by endocytosis. The capsules are degraded by the action of endogenous proteases or co-delivered proteases on the cross-linkers releasing the functional cargo unaltered. The cross-linkers can be adapted to be cleavable by specific enzymes selected from available intracellular enzymes within the target cell or co-delivered or self-cleaving when the cargo itself is a protease. The nanocapsules produced by the methods have been shown to have long-term stability, high cell penetration capability, low toxicity and efficient protease-modulated specific degradability without affecting cargo protein function.

Therapeutic compositions are disclosed which contain a therapeutic agent and a bile acid or bile acid conjugate. The compositions can be absorbed via enterohepatic circulation. The compositions include a cationic moiety and an anionic polymer, which are coupled through electrostatic interactions. The therapeutic compositions can be used for the treatment of diseases or disorders.

Described herein are self-assembling protein molecules for delivering a payload, for example, a toxic anti-cancer agent, a cancer immunotherapy, a toxic anti-cancer agent and a cancer immunotherapy, or an imaging agent, to specific tissues. Examples of self-assembled proteins include clathrin and derivatives of clathrin.