Methods of expressing a neuropeptide in a neuron of a subject are described. Methods of altering a behavior in a subject in need thereof are described. Kits are described. Vectors are described.

A novel means for safely and efficiently introducing a target substance such as nucleic acid, protein, or the like into cells (excluding immune cells) is provided by the present invention. Specifically, a system for delivering a target substance into a cell (excluding immune cells), including ultrafine bubble water or ultrafine bubble aqueous solution containing ultrafine bubbles with an average diameter of not more than 200 nm and not containing phospholipid, and an ultrasound generator in combination; a method for increasing the delivery of a nucleic acid, a protein or a low-molecular-weight compound into a cell (excluding immune cells) by using the ultrafine bubble water, etc.; and the like are provided.

Methods and compositions for combined therapy with viral vectors and complement inhibitors are described.

Compositions and methods for prevention of ovarian cancer recurrence and for the treatment of BRCA1/2-wild type ovarian cancer are disclosed herein. In some embodiments, the composition comprises an autologous tumor cell vaccine comprising cells genetically modified for furin knockdown and GM-CSF expression. In some embodiments, the method comprises administration of an autologous tumor cell vaccine prior to administration of a combination of the autologous tumor cell vaccine and atezolizumab. Also disclosed herein are methods for treating a cancer in an individual comprising a wild-type BRCA1 gene, a wild-type BRCA2 gene, or a combination thereof, and is identified as homologous recombination deficiency (HRD)-negative.

The present invention contemplates allele-specific gene editing based on targeting a heterozygous single nucleotide polymorphism (SNP) in a protein coding sequence associated with a genetic disease. The data shown herein demonstrates that the outcome of such gene editing creates a nonesense mutation that results in a marked and selective reduction of mutant protein without affecting wild type protein expression. Expression of a single CRISPR-Cas9 nuclease in neurons generated a high frequency of mutations in the targeted HD allele that included both small insertion/deletion mutations and viral vector insertions. Thus, as disclosed herein, allele-specific targeting of InDel and insertion mutations to heterozygous coding SNPs provides a feasible approach to inactivate autosomal dominant mutations that cause genetic disease.

Methods and compositions for the treatment of cognitive disorders are provided herein.

The present invention provides compositions and methods for treating cancer in a patient. In one embodiment, the method comprises a first-line therapy comprising administering to a patient in need thereof a genetically modified T cell expressing a CAR wherein the CAR comprises an antigen binding domain, a transmembrane domain, a costimulatory signaling region, and a CD3 zeta signaling domain and monitoring the levels of cytokines in the patient post T cell infusion to determine the type of second-line of therapy appropriate for treating the patient as a consequence of the presence of the CART cell in the patient.

Disclosed herein are molecules and pharmaceutical compositions that induce an insertion, deletion, duplication, or alteration in an incorrectly spliced mRNA transcript to induce exon skipping or exon inclusion. Also described herein include methods for treating a disease or disorder that comprises a molecule or a pharmaceutical composition that induces an insertion, deletion, duplication, or alteration in an incorrectly spliced mRNA transcript to induce exon skipping or exon inclusion.

This application provides improved methods of genome editing. Cas9 molecules can be used to create a break in a genomic region of interest. To increase the likelihood that the break is repaired by HDR (homology-directed repair), the cell can be contacted with molecules that bring a template nucleic acid in close proximity to the break, under conditions that allow the cell to repair the break using the template nucleic acid.

The present invention provides, among other things, methods of treating ornithine transcarbamylase deficiency, including administering to a subject in need of treatment a composition comprising an mRNA encoding an ornithine transcarbamylase protein at a low dose and at an administration interval such that at least one symptom or feature of the OTC deficiency is reduced.