The invention relates to nucleic acid constructs for expression in mice for the production of heavy chain only antibodies and V.sub.H domains, transgenic mice, related methods and uses.

Genetically modified non-human animals are provided that exhibit a functional lack of one or more lncRNAs. Methods and compositions for disrupting, deleting, and/or replacing lncRNA-encoding sequences are provided. Genetically modified mice that age prematurely are provided. Also provided are cells, tissues and embryos that are genetically modified to comprise a loss-of-function of one or more lncRNAs.

A non-human animal model for neurodegenerative and/or inflammatory diseases is provided, which non-human animal comprises a disruption in a C9ORF72 locus. In particular, non-human animals described herein comprise a deletion of an entire coding sequence of a C9ORF72 locus. Methods of identifying therapeutic candidates that may be used to prevent, delay or treat one or more neurodegenerative (e.g., amyotrophic lateral sclerosis (ALS, also referred to as Lou Gehrig's disease) and frontotemporal dementia (FTD)), autoimmune and/or inflammatory diseases (e.g., SLE, glomerulonephritis) are also provided.

Disclosed are compositions, methods, and kits for modifying DNA within cells as well as compositions and methods for modifying gene expression in a cell. In particular, the invention generally relates to compositions, methods, and kits for DNA editing using single-stranded DNA. Compositions and methods for modifying gene expression using artificial microRNAs (amiRNA) are also contemplated.

Provided herein, in some aspects, are compositions and methods for treating Barth syndrome (BTHS) using human tafazzin gene therapy or enzyme replacement therapy. The present disclosure, in some aspects, provides compositions and methods (e.g., gene therapy or enzyme replacement therapy) for treating Barth syndrome (BTHS). It was demonstrated herein that certain human Tafazzin (hTAZ) isoforms and the full length protein, as well as nucleic acids encoding them, are effective in treating BTHS.

This document relates to non-human animal models (e.g., non-human mammalian models such as mouse models) for aging (e.g., neural aging). For example, non-human animal models having reduced or eliminated levels of aralkylamine N-acetyltransferase (AANAT) polypeptide expression are provided.

The present invention relates to a product comprising (i) an anti-VEGF entity; and (ii) a negative complement regulator, or nucleotide sequences encoding therefor, as a combined preparation for simultaneous, separate or sequential use in therapy. In particular, the anti-VEGF entity is an anti-VEGF antibody, preferably aflibercept and the negative complement regulator is Complement Factor I (CFI) or Complement Factor H Like Protein 1 (FHL1). The main uses are for the treatment of eye diseases, in particular age-related macular degeneration (AMD).

Provided herein is a method for treating and/or preventing various diseases including a decrease in glucose tolerance and a decrease in cognitive ability associated with aging with adipocytes over-expressing FFAR4 and a transplant composition including the adipocytes.

A method for screening an active ingredient of a saltiness enhancer, the screening method including the following steps: (i) a step for determining whether a test substance is a compound capable of promoting functional expression of the TMC4 gene or TMC4 protein; and (ii) a step for selecting, as an active ingredient of a saltiness enhancer, a test substance that has been determined in step (i) to be a compound capable of promoting functional expression of the TMC4 gene or TMC4 protein.

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.