The present disclosure is directed to a method of treating a neuropsychiatric disorder. This method involves selecting a subject having the neuropsychiatric disorder and administering to the selected subject a preparation of glial progenitor cells at a dosage effective to treat the neuropsychiatric disorder in the subject. Another aspect of the disclosure is directed to a method of treating a neuropsychiatric disorder that includes selecting a subject having the neuropsychiatric disorder and administering, to the selected subject, a potassium (K.sup.+) channel activator at a dosage effective to restore normal brain interstitial glial K.sup.+ levels in the selected subject and treat the neuropsychiatric disorder is also disclosed.

Nuclease-mediated methods for expanding repeats already present at a genomic locus are provided. Non-human animal genomes, non-human animal cells, and non-human animals comprising a heterologous hexanucleotide repeat expansion sequence inserted at an endogenous C9orf72 locus and methods of making such non-human animal cells and non-human animals through nuclease-mediated repeat expansion are also provided. Methods of using the non-human animal cells or non-human animals to identify therapeutic candidates that may be used to prevent, delay or treat one or more neurodegenerative disorders associated with repeat expansion at the C9orf72 locus are also provided.

A transgenic chicken comprising an inactivated heavy immunoglobulin gene and/or inactivated light chain immunoglobulin gene is provided, as well as cells and targeting vectors for making the same.

The present invention relates to vectors and compositions for the treatment of glycogen storage disease III.

Disclosed herein are nerve xenografts and methods of using such for repairing and/or protecting a nerve tissue in a human patient. The subject matter disclosed herein generally relates to nerve xenografts derived from genetically engineered source animals, and use of such nerve xenografts for repairing and/protecting nerve tissue in a human patient, e.g., for reconstruction of large peripheral nerve gaps, treatment of spinal cord injuries and ailments, and other therapies.

The present application discloses methods of correcting a gene defect in a cell, methods of treating a patient having a disease or disorder characterized by a gene defect, methods of preparing a chimeric antigen receptor T cell, as well as systems for correcting a gene defect in a cell, ex vivo modified cells, and related compositions.

Provided is an application of a non-IGF1R-binding substance in the prevention and/or treatment of inflammatory diseases. Specifically, provided is use of a non-IGF1R-binding substance. The non-IGF1R-binding substance is used for preparing a composition or formulation, and the composition or formulation is used for preventing and/or treating inflammatory diseases.

Provided are nucleotide sequences encoding polypeptides with ribonuclease III activity, wherein the nucleotide sequences have been modified to reduce their regulation by miRNAs. In some embodiments, the nucleotide sequences are at least 50% and as much as 100% identical to SEQ ID NO: 20 or SEQ ID NO: 22, and/or encode polypeptides that are at least 90% percent identical to SEQ ID NO: 23. Also provided are vectors and host cells that include the nucleotide sequences, methods for expressing the nucleotide sequences in cells, tissues, and organs, which in some embodiments can be in the eye of a subject in need thereof, methods for preventing and/or treating development of diseases or disorders and/or for restoring undesirably low DICER1 expression using the nucleotide sequences, and pharmaceutical compositions that have the presently disclosed nucleotide sequences.

The invention provides compositions and methods useful for the treatment and prevention of conditions associated with short telomere length.

Methods are disclosed herein for producing human hepatocytes from human induced pluripotent stem cells. Also provided are transgenic rats for the expansion of human hepatocytes, such as those produced using the methods disclosed herein.