The present invention provides a method for producing a retinal progenitor cell, including (1) a first step of subjecting pluripotent stem cells to floating culture in a serum-free medium to form an aggregate of pluripotent stem cells, and (2) a second step of subjecting the aggregate formed in step (1) to floating culture in a serum-free medium or serum-containing medium each being free of a substance acting on the Sonic hedgehog signal transduction pathway but containing a substance acting on the BMP signal transduction pathway, thereby obtaining an aggregate containing retinal progenitor cells.

The present invention provides: a lubricin-localized cartilage-like tissue characterized in that, when in an arbitrary cross section passing a first center of mass of a cartilage-like tissue derived from pluripotent stem cells or a center-of-mass region, which is a portion inside a concentric sphere being centered at the first center of mass and having a diameter of [first major diameter×0.2], the expression level of lubricin per unit area contained in a central region, which is a portion inside a concentric circle being centered at a second center of mass that is the center of mass of the cross section and having a diameter of [major diameter of cross section (second major diameter)×(0.4 to 0.9)] is referred to as the central lubricin level and the expression level of lubricin per unit area contained in the non-central region is referred to as the non-central lubricin level.

Cell populations of intestinal midgut endoderm cells and methods of generating the cells expressing markers characteristic of intestinal endoderm lineage are disclosed. Methods of treating conditions such as diabetes are also disclosed.

A method for producing a population of cells, enriched for non-adherent endothelial progenitor cells (EPCs), the method comprising culturing an EPC containing population of cells in the presence of interleukin-3 (IL-3), such that a population of cells enriched for non-adherent EPCs is produced.

The present invention relates to methods for encapsulating pancreatic progenitors in a biocompatible semi-permeable encapsulating device. The present invention also relates to production of human insulin in a mammal in response to glucose stimulation.

The present invention provides a method for producing a human cell aggregate containing a midbrain-hindbrain boundary neural progenitor tissue, including subjecting an aggregate of human pluripotent stem cells to suspension culturing in a serum-free medium containing insulin, and treating, in the suspension culturing, the aggregate of human pluripotent stem cells or a human cell aggregate derived therefrom with a ROCK inhibitor, a TGFβ signal inhibitor, and a first fibroblast growth factor. Furthermore, the human cell aggregate containing the midbrain-hindbrain boundary neural progenitor tissue is subjected to suspension culturing in a serum-free medium to induce formation of a neuroepithelial structure by neural progenitor in the neural progenitor tissue, whereby the human cell aggregate containing the cerebellar plate tissue can be obtained.

Provided herein are methods of producing β cells and precursors thereof utilizing a Wnt signaling inhibitor or PKC activator, or both. Also provided herein are in vitro cultures comprising said cells, methods of treating a subject with a disease characterized by high blood sugar levels over a prolonged period of time by administering said cells, and devices for encapsulating said cells.

The invention relates to a method for producing cartilage from pluripotent stem cells (PSCs), the method comprising providing chondrocytes by: 1) providing pluripotent stem cells (PSCs); 2) inducing differentiation of the PSCs into a primitive streak/mesendoderm by culturing the PSCs in hypoxic conditions, in a (mesendodermic) culture media comprising: i) a Wingless/Integrated (WNT) family member, ii) an Activin family member, and iii) a Fibroblast Growth Factor (FGF) family member; 3) inducing differentiation of the primitive streak/mesendoderm into a mesoderm by culturing the primitive streak/mesendoderm in hypoxic conditions, in a (mesodermic) culture media comprising: i) a FGF family member, ii) a bone morphogenetic protein (BMP) family member, iii) Follistatin, and iv) a Neurotrophin (NT); and 4) inducing differentiation of the mesoderm into chondrocytes by culturing the mesoderm in hypoxic conditions, in a (chondroinductive) culture media comprising: i) a FGF family member, ii) a BMP family member, iii) a Neurotrophin, and iv) a Growth/Differentiation Factor (GDF) family member; and forming a pellet of the chondrocytes and culturing the pellet of the chondrocytes in a culture media under hypoxic conditions to produce the cartilage. The invention further relates to methods of chondrocyte production, synthetically produced cartilage, and use in therapy.

Provided is reproducible means that enables the production of an active nucleus pulposus cell phenotype from desired cells such as terminally differentiated cells or pluripotent or multipotent stem cells. Provided is a differentiation inducer containing an effective amount of a gene of at least two transcription factors selected from the group consisting of Brachyury (T), SRY-box6 (SOX6), C and Forkhead Box Q1 (FOXQ1), or homologs thereof (nucleus pulposus cell master regulator transcription factor), or a product thereof.

The present invention is drawn, in part, to biocompatible compositions comprising a biocompatible polymer matrix and conditioned cell medium comprising i) a cell culture medium and ii) one or more agents synthesized by and secreted from one or more cells cultured in the cell culture medium, as well as therapeutic uses thereof, particularly in modulating bone and/or gum tissue growth.