Provided herein are compositions and methods for regenerating retinal ganglion cells (RGCs) from retinal neuron cells by activating transcription factors such as one or more of Atoh7, Brn3B, Sox4, Sox11, or Ils1. The retinal neuron cells may be interneuron cells such as amacrine cells, horizontal cells, and bipolar cell. The regenerated RGCs can project axons into discrete subcortical brain regions and establish retina-brain connections. They can respond to visual stimulation and transmit electrical signals into the brain. Therefore, the regenerated RGCs can replace damaged or degenerated RGCs, thereby treating vision impairment or blindness. The methods are likewise applicable to degenerated, damaged, or aged RGCs to stimulate them to regrow functional axons, thereby rejuvenating these RGCs.

A bioreactor device includes a solid substrate having a first face and a second face. The solid substrate at least partially defines a perfusion channel, a plurality of chambers, a fluidic inlet, and a fluidic outlet. A first sheet disposed over the first face and a second sheet disposed over the second face. Characteristically, the combination of the solid substrate, the first sheet and the second sheet define the perfusion channel and each chamber of the plurality of chambers. The plurality of chambers are arranged in rows of chambers in which adjacent chambers are positioned at opposite side of the perfusion channel. The perfusion channel extends from the fluidic inlet and the fluidic outlet having a serpentine path along each row of chambers with each chamber being in fluid communication with the perfusion channel.

Disclosed are methods for preparing retinal pigment epithelium (RPE) cells from pluripotent stem cells (PSCs). More particularly, it represents an automated method that combines in a sequential manner three differentiating agents to direct the differentiation of human PSCs into RPE cells.

Methods are described for preparing auditory progenitor cells from gingival mesenchymal cells, for uses such as restoring hearing in hearing impaired individuals. In one aspect, a method of treating hearing loss associated with loss of sensory neurons in a human subject is provided, the method comprising the steps of: a. obtaining a population of gingival mesenchymal stem cells (GMSCs); b. optionally expanding the population of GMSCs in vitro; c. encapsulating the population of GMSCs in an elastic three-dimensional scaffold; d. exposing the encapsulated population of GMSCs to a composition comprising one or more growth factors; e. allowing co a sufficient period for the population of GMSCs to differentiate towards auditory progenitor cells; f. optionally retrieving the auditory progenitor cells from the scaffold; and g. introducing the auditory progenitor cells into the inner ear of the subject.

This disclosure relates to methods for expanding inner ear supporting cells (e.g., Lgr5+ inner ear supporting cells) and differentiating inner ear supporting cells (e.g., Lgr5+ inner ear supporting cells) to inner ear hair cells (e.g., atonal homolog 1 (Atoh1)+ inner ear hair cells) and the use of the inner hear supporting cells and hair cells, e.g., for identifying candidate therapeutic compounds for the treatment of hearing loss and balance loss. Additionally, the methods described herein can be used in the treatment of a subject having hearing loss and balance loss that would benefit from increased proliferation and differentiation of inner ear supporting cells (e.g., Lgr5+ inner ear supporting cells).

A method of producing a synthetic retina, including differentiating a stem cell culture in a culture medium and supplementing the culture with: (i) Triiodothyronine from about day 18 of cell differentiation; and (ii) retinoic acid for a first time period.

Provided are compositions and methods comprising a FOXO inhibitor for increasing proliferation of Lgr5+ cochlear cells, and related methods of treating hearing loss.

The present invention relates to cross-linked polymers (e.g., hydrogels) including hyaluronan polymer and multimeric cross-linker for treating disorders (e.g., retinal detachment or osteoarthritis), for use in screening models (e.g., in vitro cell culture system), or for cell transplantation (e.g., in vivo cell delivery).

Provided herein is a dual cell aggregate culture of retinal epithelial cells and photoreceptors for use as a research tool, such as the screening of compounds or model for study of retinal diseases, as well as a therapeutic for treating ocular diseases.

A sphere-like cell aggregate according to one embodiment of the present invention comprises: a core part containing neural retina; and a covering part continuously or discontinuously covering at least a portion of a surface of the core part.