The present invention relates to methods for differentiating stem cells into ventral midbrain dopaminergic progenitor cells, and into mesencephalic dopaminergic neurons, and compositions, kits, and uses thereof.

The present invention relates to a method for producing induced dopaminergic neuronal progenitors from adult cells using direct reprogramming, induced dopaminergic neuronal progenitors produced via the method and a use for same, wherein, as a result of having been directly reprogrammed from adult cells, the induced dopaminergic neuronal progenitors produced by means of the present invention can be transplanted inside a living body without the risk of oncogenicity, and have excellent proliferative capacity and dopaminergic neuronal differentiation potency, thus can be usefully utilized as a cell therapy product for Parkinson's disease.

The present invention relates to a method for producing induced dopaminergic neuronal progenitors from adult cells using direct reprogramming, induced dopaminergic neuronal progenitors produced via the method and a use for same, wherein, as a result of having been directly reprogrammed from adult cells, the induced dopaminergic neuronal progenitors produced by means of the present invention can be transplanted inside a living body without the risk of oncogenicity, and have excellent proliferative capacity and dopaminergic neuronal differentiation potency, thus can be usefully utilized as a cell therapy product for Parkinson's disease.

Provided is a method for freezing a cell aggregate including neural cells. provided is a method for freezing a cell aggregate including neural cells and having a three-dimensional structure, which comprises following steps (1) and (2): (1) contacting a cell aggregate including neural cells and having a three-dimensional structure with a preservation solution at 0° C. to 30° C. prior to freezing to prepare a preservation solution-soaked cell aggregate; and (2) cooling the preservation solution-soaked cell aggregate obtained in step (1) from a temperature at least about 5° C. higher than the freezing point of the preservation solution to a temperature about 5° C. lower than the freezing point at an average cooling speed of 2 to 7° C./min to freeze the cell aggregate.

Compositions for treating an ocular disorder are provided. The composition includes an effective amount of a human trabecular meshwork stem cell (TMSC) secretome, wherein the effective amount is present in an amount to reduce impairment of retinal ganglion cells (RGC). Methods for treating ocular disorders using the disclosed compositions are also provided. The compositions reduce and prevent cell apoptosis, axon loss, vision loss, increased intraocular pressure, and dysregulated aqueous humor outflow of a subject when used in accordance with the methods disclosed herein.

Compositions for treating an ocular disorder are provided. The composition includes an effective amount of a human trabecular meshwork stem cell (TMSC) secretome, wherein the effective amount is present in an amount to reduce impairment of retinal ganglion cells (RGC). Methods for treating ocular disorders using the disclosed compositions are also provided. The compositions reduce and prevent cell apoptosis, axon loss, vision loss, increased intraocular pressure, and dysregulated aqueous humor outflow of a subject when used in accordance with the methods disclosed herein.

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.

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.

The present application provides materials and methods for treating a patient with one or more condition associated with FXN whether ex vivo or in vivo. In addition, the present application provides materials and methods for editing and/or modulating the expression of FXN gene in a cell by genome editing.

The present application provides materials and methods for treating a patient with one or more condition associated with FXN whether ex vivo or in vivo. In addition, the present application provides materials and methods for editing and/or modulating the expression of FXN gene in a cell by genome editing.