Provided herein are methods of producing a distinct bilayer culture of retinal epithelial cells (RPE) with photoreceptor cells and/or photoreceptor precursor cells (PR/PRP). Further provided herein is a therapy comprising transplantation of the RPE and PR/PRP bilayer as well as methods for testing candidate drugs using the bilayer.

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.

The invention relates to culturing motor neuron cells together with skeletal muscle cells in a fluidic device under conditions whereby the interaction of these cells mimic the structure and function of the neuromuscular junction (NMJ) providing a NMJ-on-chip. Good viability, formation of myo-fibers and function of skeletal muscle cells on fluidic chips allow for measurements of muscle cell contractions. Embodiments of motor neurons co-cultures with contractile myo-fibers are contemplated for use with modeling diseases affecting NMJ's, e.g. Amyotrophic lateral sclerosis (ALS).

The present invention relates to methods for making in vitro retinal cultures, tissue, or retinal organoids, from pluripotent cells as well as the improved synthetic retinal tissue and retinal organoids themselves. It also relates to retinal organoids that replicate in vitro many characteristics of the retina (e.g., human or mammalian), and methods of using this retinal organoid to study disease and to identify therapeutic agents for the treatment of retinal diseases and disorders.

The present invention relates to the treatment of sensory neuropathy induced by a marine neurotoxic poisoning. The invention further encompasses an in vitro method for producing a neuro-cutaneous model allowing to study the cellular and/or molecular mechanisms involved in said neuropathy, a neuro-cutaneous model obtainable according to said method, and applications thereof.

This present invention provides a method for continuously maintaining growth of a motor neuron progenitor cell and a pharmaceutical composition. Wherein, the method for continuously maintaining growth of a motor neuron progenitor cell is to culture the motor neuron progenitor cell in an environment which is constructed by the olfactory ensheathing cells to make the motor neuron progenitor cell sustain the ability to self-replicate and to be induced for differentiating into mature neuron, and therefore to elaborate the effect to protect the motor neuron. The motor neuron progenitor cell produced from the method disclosed in this present invention can be an effective ingredient of the pharmaceutical composition for treating related diseases of damaged motor neuron.

Provided herein are methods for generating stem cell-derived retinal pigment epithelial monolayer cultures as well as methods of using the same. Also provided are populations of retinal pigment epithelial cells prepared according to these methods. In addition, three-dimensional tissue products derived from human induced pluripotent stem cells are also provided along with methods of making and using the same.

In some embodiments, the present invention provides tissue compositions including a first silk scaffold comprising a plurality of epithelial cells, a second silk scaffold comprising a plurality of stromal cells, and a plurality of neurons. In some embodiments, provided compositions can function as physiologically relevant corneal model systems for, inter alia, testing of therapeutics for corneal disease and/or injury and production of functional corneal tissue (e.g., for transplant, etc). The present invention also provides methods for making and using provided compositions.

A method for obtaining a plurality of pluripotent adult olfactory stem cells (APOSCs) includes isolating the APOSCs, culturing the isolated APOSCs in a sphere culture medium, and collecting the cultured APOSCs that express Bmi-1 (B-lymphoma moloney murine leukemia virus insertion region-1), Oct-4 (Octamer-binding transcription factor 4), Sox-2 (Sex-determining region Y (SRY)-box 2), Nanog, SSEA-4 (Stage-specific embryonic antigen-4), ki67, c-Myc, KLF-4 (Kruppel Like Factor 4), K14 (Cytokeratin 14) and ICAM-1 (Intercellular Adhesion Molecule 1).

The present invention provides organotypic pig and non-human primate retina culture systems, and methods for evaluating or characterizing candidate therapeutic agents e.g. AAV-mediated gene vectors, using the same.