The disclosure is generally related to oligonucleotides having a hairpin-like structure, nanoparticles comprising the same, and methods of using the same.

This invention provides polymer particles which contain negative charges on the surface of the particle. Preferably, the particles comprise PLGA and sulfate polymer. The invention also provides polymer particle produced by the methods of the invention.

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.

Compositions for enhanced gene editing and methods of use thereof are. The composition contains a cell-penetrating antibody and a donor oligonucleotide containing a sequence that can correct a mutation in a cell's genome. Preferably, the composition does not contain a nuclease, PNA, or nanoparticle. The compositions are used to modify the genome of a cell by contacting the cell with an effective amount of the composition. Genomic modification occurs at a higher frequency both ex vivo and in vivo, when cells are contacted with the cell-penetrating antibody and donor oligonucleotide as compared to the absence of the cell-penetrating antibody.

The disclosure is directed to a biodegradable particle comprising a polyester or polyester blend, a first protein that binds to an immune cell, and a second protein that promotes proliferation and/or activation of immune cells, and a third soluble protein or small molecule encapsulated within the particle. The second protein is a fusion protein comprising at least a portion of an antibody and at least a portion of a cytokine (i.e., an immunocytokine). The disclosure also is directed to methods for treating a disease or condition in a subject (e.g., an autoimmune disease) comprising administering the aforementioned biodegradable particle to the subject.

Polymer conjugates comprising a hydrophobic biodegradable polymer covalently attached to a mu opioid receptor (MOR) antagonist are described. Biodegradable covalent nanoparticles comprising the hydrophobic biodegradable polymer covalently attached to a MOR antagonist are provided as a vehicle for the sustained delivery of the MOR antagonist. The described MOR antagonist delivery system may be used to more effectively prevent or overcome the toxic effects of synthetic opioids.

The disclosure provides, methods for preparing scavenging particles, as well as methods for attaching capture agents to the particles. The disclosure further provides compositions that bind to and inhibit the biological activity of soluble biomolecules, as well as pharmaceutical compositions thereof. The compositions may comprise a plurality of particles that specifically bind a target, such as a soluble biomolecule or a biomolecule on the surface of a pathogen, to inhibit the target (or pathogen) from interacting with other molecules or cells. Also provided herein are a number of applications (e.g., therapeutic applications) in which the compositions are useful.

The disclosure provides a method for removing a cancer tumor stem cell and then further removing a tumor cell and provides an application of a drug molecule and its preparation in tumor treatment or prevention. On the one hand, by inducing the death of immunogenic cells, the anti-tumor immune response is enhanced. On the other hand, indoleamine-2,3-oxygenase is inhibited, immune cells, cytokines, amino acids, etc. are regulated, which improves the niche of cancer stem cells and makes them no longer conducive to the growth of cancer stem cells. Stem cell dormancy is lifted, and the sensitivity of cancer stem cells to chemotherapy drugs and immune cells is enhanced, so that cancer stem cells and tumor cells are effectively killed, and the efficacy of tumor treatment is improved.

This invention relates, at least in part, to compositions comprising synthetic nanocarriers and immunosuppressants that result in immune suppressive effects. Such compositions can further comprise antigen and provide antigen-specific tolerogenic immune responses.

The present invention provides compositions and methods for immunotherapy, which include shelf-stable pharmaceutical compositions for inducing antigen-specific T cells. Such compositions are employed as components of an artificial antigen presenting cell (aAPC), to provide a patient with complexes for presentation of an antigen (e.g., a tumor antigen) and/or a T cell co-stimulatory molecule.