Abstract: The present disclosure provides methods for the treatment of a mammal having a neurological condition, disease, or injury. The methods involve increasing the number of functional GABAergic interneurons at or near the site of the neurological disease, injury, or condition.

Abstract: The present disclosure provides methods for the treatment of a mammal having a neurological condition, disease, or injury.

Abstract: The present disclosure provides methods for the treatment of a mammal having a neurological condition, disease, or injury. The methods involve increasing the number of functional GABAergic interneurons at or near the site of the neurological disease, injury, or condition.

Abstract: The present disclosure provides methods for the treatment of a mammal having a neurological condition, disease, or injury. The methods involve increasing the number of functional GABAergic interneurons at or near the site of the neurological disease, injury, or condition.

Abstract: The present disclosure provides methods for the treatment of a mammal having a neurological condition, disease, or injury.

Abstract: Herein are described a set of novel specific human enhancers for specific forebrain cell types used to study and select for human neural progenitor cells. This approach enables the ability to generate interneurons from human ES, iPS and iN cells, making them available for human transplantation and for molecular/cellular analyzes. These approaches are also directly applicable to generating other neuronal cell types, such as cortical and striatal projection neurons, which have implications for many human diseases.

Abstract: The present disclosure provides methods for the treatment of a mammal having a neurological condition, disease, or injury.

Abstract: The present disclosure provides methods for the treatment of a mammal having a neurological condition, disease, or injury. The methods involve increasing the number of functional GABAergic interneurons at or near the site of the neurological disease, injury, or condition.

Abstract: Herein are described a set of novel specific human enhancers for specific forebrain cell types used to study and select for human neural progenitor cells. This approach enables the ability to generate interneurons from human ES, iPS and iN cells, making them available for human transplantation and for molecular/cellular analyses. These approaches are also directly applicable to generating other neuronal cell types, such as cortical and striatal projection neurons, which have implications for many human diseases.

Abstract: The present disclosure provides methods for the treatment of a mammal having a neurological condition, disease, or injury. The methods involve increasing the number of functional GABAergic interneurons at or near the site of the neurological disease, injury, or condition.

Abstract: This invention provides a method of converting a stem cell into a ventral neuron which comprises introducing into the stem cell a nucleic acid which expresses homeodomain transcription factor Nkx6.1 protein in the stem cell so as to thereby convert the stem cell into the ventral neuron. Provided are methods of diagnosing a motor neuron degenerative disease in a subject. Also provides is a method of treating neuronal degeneration in a subject which comprises implanting in diseased neural tissue of the subject a neural stem cell which comprises an isolated nucleic acid molecule which is capable of expressing homeodomain Nkx6.1 protein under conditions such that the stem cell is converted into a motor neuron after implantation, thereby treating neuronal degeneration in the subject.

Abstract: This invention provides a method of converting a stem cell into a ventral neuron which comprises introducing into the stem cell a nucleic acid which expresses homeodomain transcription factor Nkx6.1 or Nkx6.2 protein in the stem cell so as to thereby convert the stem cell into the ventral neuron. Provided are methods of diagnosing a motor neuron degenerative disease in a subject. Also provides is a method of treating neuronal degeneration in a subject which comprises implanting in diseased neural tissue of the subject a neural stem cell which is capable of expressing homeodomain Nkx6.1 or Nkx6.2 protein under conditions such that the stem cell is converted into a motor neuron after implantation, thereby treating neuronal degeneration in the subject.

Abstract: This invention provides a method of converting a stem cell into a ventral neuron which comprises introducing into the stem cell a nucleic acid which expresses homeodomain transcription factor Nkx6.1 or Nkx6.2 protein in the stem cell so as to thereby convert the stem cell into the ventral neuron. Provided are methods of diagnosing a motor neuron degenerative disease in a subject. Also provides is a method of treating neuronal degeneration in a subjet which comprises implanting in diseased neural tissue of the subject a neural stem cell which is capable of expressing homeodomain Nkx6.1 or Nkx6.2 protein under conditions such that the stem cell is converted into a motor neuron after implantation, thereby treating neuronal degeneration in the subject.

Abstract: The present invention features mouse models for Nkx-2.2 gene function and for Nkx-6.1 gene function, wherein the transgenic mouse is characterized by having a defect in Nkx-2.2 gene function or a defect in Nkx-6.1 gene function (where, because Nkx-2.2 acts upstream of Nkx-6.1, a defect in Nkx-2.2 gene function affects Nkx-6.1 gene function) and by having a decreased number of insulin-producing cells relative to a normal mouse. Where the transgenic mouse contains a defect in Nkx-2.2 gene function, the mouse is further characterized by a decreased number of serotonin-producing cells relative to a normal mouse. The transgenic mice may be either homozygous or heterozygous for the Nkx-2.2 or Nkx-6.1 defect.