A method of selectively targeting a cell with a therapeutic agent, the method comprising: targeting a cell with a nanospear, puncturing the cell with said nanospear; releasing a therapeutic agent from said nanospear, wherein said therapeutic agent enters said cell, thereby effecting the efficacy of said cell.

The present invention is related to a targeted type shell for drug delivery system. The object of the present invention is to provide the targeted type shell for DDS, which comprises a carbosilane dendrimer containing a silole produced by which is formed by utilizing the reaction between thiol group and alkyl halide, and a targeted protein containing a labeled proteins such as green fluorescent protein with a target recognition site. The shell may incorporate compounds having a variety of molecular weight and biopolymers, and selectively deliver them into targeted cells.

Disclosed are biocompatible core/shell compositions suitable for the delivery of populations of mRNA molecules to mammalian cells. The disclosed core-shell structured multicomponent compositions are optimized for the delivery of mRNAs encoding one or more cancer- or tumor-specific antigens to a population of antigen presenting cells, including, for example, human dendritic cells, macrophages and B cells. Also disclosed are methods for use of these compositions as therapeutic cancer vaccines.

The invention relates to new calibrated-size gas-filled microvesicles bearing an overall positive charge, to their use and to their method of manufacturing. The gas-filled microvesicles have a geometric standard deviation (GSD) value of at least 1.25 or lower and a stabilizing envelope comprising an amphiphilic material, said amphiphilic material comprising a cationic lipid and a neutral or cationic amphiphilic polymeric compound.

Polynucleotides encoding peptides, proteins, enzymes, and functional fragments thereof are disclosed. The polynucleotides of the disclosure can be effectively delivered to an organ, such as the lung, and expressed within cells of the organ. The polyribonucleotides of the disclosure can be used to treat a disease or condition associated with cilia maintenance and function, impaired function of the axoneme, such as DNAI1 or DNAH5.

The innate immune sensing STING pathway has emerged as a potential therapeutic target to boost antitumor immune responses. STING resides in the cytoplasm, and its agonists, such as cGAMP, are dinucleotides that are difficult to deliver intracellularly. Disclosed herein is a microbubble-based platform (Microbubble (MB)-assisted UltraSound (US)-guided Immunotherapy of Cancer (MUSIC)) that can be used for targeted activation of STING, such as for treatment of primary and metastatic tumors.

Embodiments of immunogenic conjugates including the HIV-1 Env fusion peptide and methods of their use and production are disclosed. In several embodiments, the immunogenic conjugates can be used to generate an immune response to HIV-1 Env in a subject, for example, to treat or prevent an HIV-1 infection in the subject.

A pharmaceutical composition includes a plurality of metal nanoparticles and at least one therapeutic agent. Each of the metal nanoparticles includes a core and a stabilizing agent coated on a surface of the core. The at least one therapeutic agent is attached to the stabilizing agent of the metal nanoparticles. Each of the therapeutic agent is an amphiphilic compound and has at least one hydrophobic chain interacting with the stabilizing agent. The pharmaceutical composition may further include a polymer shell encapsulating the metal nanoparticles and the therapeutic agent for enabling controlled release of the therapeutic agent. The pharmaceutical compositions are bifunctional and may be used for diagnosing and treating cancer. Methods for using the pharmaceutical compositions in conjunction with radiation therapy to diagnose and treat cancer are also provided.

The invention relates to methods of sonodynamic therapy comprising the co-administration of a microbubble-chemotherapeutic agent complex together with a microbubble-sonosensitiser complex. It further relates to pharmaceutical compositions comprising these complexes and their use in methods of sonodynamic therapy and/or sonodynamic diagnosis. Such methods find particular use in the treatment of cancer, e.g. pancreatic cancer.

Phase change nanodroplet conjugates and methods of making and using thereof are provided. The phase change nanodroplet conjugates include a nanodroplet having a gaseous precursor on the interior and an outer shell such as a lipid monolayer, a lipid bilayer, or a polymer layer. The phase change nanodroplet conjugates can have one or more nanoparticles attached to the outer layer, e.g. via a linker. The nanoparticles can include therapeutic, prophylactic, or diagnostic nanoparticles. The phase change nanodroplet conjugates can be used for the targeted delivery of a therapeutic, prophylactic, or diagnostic nanoparticle to a target region in a subject in need thereof. The methods can include applying an effective amount of ultrasound radiation to the target region to stimulate vaporization of the gaseous precursor followed by cavitation of the resultant bubble conjugate and release or dispersing of drug or drugs inside the liposomes. Methods of making phase change nanodroplet conjugates are also provided.