Disclosed herein, in certain embodiments, are engineered virus-like particles and compositions that comprise an oligodeoxynucleotide (ODN) for the treatment of a disease or condition. In some embodiments, also disclosed herein are methods of inducing phagocytosis of a target cell and methods of immune modulation.

The present invention relates to a double-stranded oligonucleotide capable of inhibiting CTGF expression with a very specific and high efficiency, a double-stranded oligonucleotide structure and nanoparticles comprising the double-stranded oligonucleotide, and a use thereof in preventing or treating of fibrotic or respiratory diseases.

The invention provides novel compounds, compositions and formulations of liposomes, microbubbles and/or nanodroplets, and emulsions thereof, that are useful in delivery of various nucleic acids and genes (e.g., single stranded RNA, DNA, si-RNA and CRISPR constructs), as well as methods of preparation and use thereof including methods of imaging and gene delivery using ultrasound activation.

The invention relates to the method for building nanoparticle-based drug carriers and the nanoparticle based drug delivery system able to manipulate the corresponding protein corona for specific and potent drug delivery to cancer cells.

Disclosed herein are polynucleic acid molecules, pharmaceutical compositions, and methods for treating muscle atrophy or myotonic dystrophy.

Disclosed herein are polynucleic acid molecules, pharmaceutical compositions, and methods for treating Facioscapulohumeral muscular dystrophy.

The present disclosure relates to gene therapy targeting GluK2 subunit that can be used to inhibit epileptiform discharges. Short interfering RNA sequences against the human Grik2 gene sequence are described which are efficient in decreasing the expression of GluK2-containing KARs in neurons engineered to express the equivalent shRNA or miRNA. Using a tissue culture model of TLE, the examples remarkably demonstrate that viral expression of shRNA or miRNA inhibits the frequency of epileptiform discharges. Therefore, RNA therapeutics aimed at decreasing the expression of GluK2-containing KARs in neurons can remarkably prevent spontaneous epileptiform discharges in TLE. In particular, the present disclosure relates to a recombinant antisense oligonucleotide that targets a Grik2 mRNA. The present disclosure also relates to a method for treating epilepsy in a subject in need thereof, wherein the method comprises: administering an effective amount of a vector comprising an oligonucleotide encoding an inhibitory RNA that binds (e.g., hybridizes) specifically to Grik2 mRNA and inhibits expression of Grik2 in the subject.

Compositions and methods for treating a disease are described herein. Compositions having plant preparations, microRNAs, and one or more rate limiters are administered to a patient to promote DNA damage repair and modulate endothelial and mitochondrial function, thereby allowing for healing to occur.

Aspects of the disclosure relate to complexes comprising a muscle-targeting agent covalently linked to a molecular payload. In some embodiments, the muscle-targeting agent specifically binds to an internalizing cell surface receptor on muscle cells. In some embodiments, the molecular payload inhibits expression or activity of DUX4. In some embodiments, the molecular payload is an oligonucleotide, such as an antisense oligonucleotide or RNAi oligonucleotide.

This invention provides compounds, compositions and methods for modulating the expression of human GST-π using RNA interference. The RNA interference molecules can be used in methods for preventing or treating diseases such as malignant tumor. Provided are a range of siRNA structures, having one or more of nucleotides being modified or chemically-modified. Advantageous structures include siRNAs with 2′-deoxy nucleotides located in the seed region, as well as other nucleotide modifications.