Methods of employing non-oncolytic viruses or plasmids and focused ultrasound are provided. Specifically, the disclosure provides methods for ultrasound-mediated non-invasive delivery of gene therapy agents to the central nervous system, wherein magnetic resonance (MR) guided focused ultrasound is used, optionally in combination with microbubbles, to facilitate gene delivery to a particular region of the brain.

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 present invention concerns an expression system for systemic administration comprising a sequence encoding a FKRP protein, and: a promoter sequence allowing the expression at a therapeutically acceptable level of FKRP in the skeletal muscles and a target sequence of an miRNA expressed in the heart; or a promoter sequence allowing the expression at a therapeutically acceptable level of FKRP in the skeletal muscles and presenting a promoter activity at a toxically acceptable level in the heart;
and its use for the treatment of various diseases linked to FKRP deficiencies.

Disclosed herein are compositions and methods for modulating the production of a protein in a target cell. The compositions and methods disclosed herein are capable of ameliorating diseases associated with protein or enzyme deficiencies.

The present invention relates to Adeno-associated virus type 9 methods and materials useful for intrathecal delivery of polynucleotides. Use of the methods and materials is indicated, for example, for treatment of lower motor neuron diseases such as SMA and ALS as well as Pompe disease and lysosomal storage disorders. It is disclosed that administration of a non-ionic, low-os-molar contrast agent, together with a rAA9 vector for the expression of Survival Motor Neuron protein, improves the survival of SMN mutant mice as compared to the administration of the expression vector alone.

The present invention relates to compositions and methods for siRNA therapeutics for prevention and treatment of Middle East Respiratory Syndrome Corona Virus (MERS-CoA) infections. The compositions include a pharmaceutical composition comprising siRNA cocktails that target viral genes and pharmaceutically acceptable polymeric nanoparticle carriers and liposomal nanoparticle carriers.

Disclosed herein is a genetically-modified cell comprising in its genome a modified human T cell receptor alpha constant region gene, wherein the cell has reduced cell-surface expression of the endogenous T cell receptor. The present disclosure further relates to methods for producing such a genetically-modified cell, and to methods of using such a cell for treating a disease in a subject.

The present disclosure relates to an anti-miRNA delivery system, and more specifically, relates to a technique of using a cancer-targeting anti-miRNA delivery system including porous silicon nanoparticles containing anti-miRNA to which a cancer cell surface protein-binding peptide is conjugated, for use in treating cancer. As a result of intensive studies in order to use and apply anti-miR-21 oligonucleotides to the treatment of ovarian cancer, the present inventors confirmed for the first time that when porous silicon nanoparticles containing an anti-miRNA-21 oligonucleotide to which a specific cancer cell surface protein-binding peptide is conjugated are applied, apoptosis is induced in an ovarian cancer cell line and cell viability is reduced, thus, an anti-miRNA delivery system, which is the aforementioned conjugate, is expected to be usefully used as a platform for treating various cancers, especially for treating ovarian cancer.

Provided are nucleic acid constructs and systems which comprise (i) a first nucleic acid construct encoding a toxin operatively linked to a first promoter and at least one cancer-associated signaling responsive enhancer element; and (ii) a second nucleic acid construct encoding an anti-toxin operatively linked to a second promoter, the second promoter being stronger than the first promoter.

Also provided are pharmaceutical compositions comprising same and methods of using same for treating cancer.

The present invention relates to Adeno-associated virus type 9 methods and materials useful for intrathecal delivery of polynucleotides. Use of the methods and materials is indicated, for example, for treatment of lower motor neuron diseases such as SMA and ALS as well as Pompe disease and lysosomal storage disorders. It is disclosed that administration of a non-ionic, low-osmolar contrast agent, together with a rAA9 vector for the expression of Survival Motor Neuron protein, improves the survival of SMN mutant mice as compared to the administration of the expression vector alone.