The present invention provides a method for culturing odontoma cells or normal cells, wherein these cells are cultured in the presence of a Rho kinase inhibitor.

It is described a composite hydrogel containing egg white and alginate (EWA) polymers, and a method of producing same, wherein the alginate is cross-linked using frozen calcium chloride disks, creating a scaffold for cells comprising a slow-rate ions diffusion through the matrix, ensuring a homogenous crosslink and smooth surface.

The present disclosure relates to compositions, apparatus and methods for generating one or more scaffolds, including: mixing a hydrogel material and/or an extracellular matrix (ECM) protein in an aqueous solvent to generate an aqueous process solution; and cryoelectrospinning the aqueous process solution onto a plurality of conductive probes extending from a conductive surface of a collector plate disposed within a process chamber under conditions sufficient to generate one or more scaffolds configured to mimic a preselected soft tissue decellularized extracellular matrix. Scaffold compositions are also provided having preselected or tuned characteristics.

The disclosure provides a salivary gland (SG) cell sheet comprising one or more layers of confluent SG cells (e.g. submandibular gland (SMG) cells). Methods of treating a wound in a salivary gland (SG), treating hyposalivation, and treating irradiation damage in an SG are also provided. The disclosure also provides a method for producing SG cell sheets comprising culturing SG cells in culture solution on a temperature-responsive polymer which has been coated onto a substrate surface of a cell culture support, wherein the temperature-responsive polymer has a lower critical solution temperature in water of 0-80° C.; adjusting the temperature of el the culture solution to below the lower critical solution temperature, whereby the substrate surface is made hydrophilic and adhesion of the cell sheet to the surface is weakened; and detaching the cell sheet from the culture support.

The present disclosure concerns an in-vitro full skin model which comprises a dermal equivalent and epidermal equivalent as well as from about 1 to about 100 three-dimensional sweat gland equivalents with respectively from about 500 to about 500000 sweat gland cells as well as a diameter of respectively from about 100 to about 6000 μm on a supporting layer. Furthermore, the present disclosure concerns the production of the full skin model as well as the use of this model as an in-vitro model, in screening methods as well as for in-vitro evaluation of the influence of cosmetic substances on the inhibition of sweat secretion as well as body odor.

In various aspects and embodiments, the present invention provides methods for preparing innervated tissue. In various embodiments the invention further provides innervated tissue generated using the methods described herein. In various embodiments the inclusion of optogenetically transducible TENGs or Micro-TENNs in the innervated tissue allows the modulation of tissue or organs by using light to stimulate the optogenetically transducible TENGs or Micro-TENNs.

Sebaceous gland-like organoids comprising a Blimp1 positive cell are provided. Methods of producing the organoids and using the organoids to test a skin drug are also provided; as are methods of treating acne.

An immortalized sweat gland myoepithelial cell which expresses -SMA and pan-cytokeratin and has a sphere forming ability after subculture at least 5 times. A method for producing immortalized sweat gland myoepithelial said method comprising: while culturing a cell structure, wherein sweat gland myoepithelial cells are exposed on a surface, in a state of being suspended in a medium, transferring an immortalizing gene into the cells; and then culturing the transgenic structure thus obtained in a state of being suspended in the medium to thereby obtain immortalized sweat gland myoepithelial cells.

Provided is a method for producing a stem cell-derived lacrimal gland tissue, the method comprising isolating SSEA4 and CD104 double positive cells from a self-formed ectodermal autonomous multi-zone (SEAM) cell population derived from pluripotent stem cells and three-dimensionally culturing the isolated cells in a medium with epidermal growth factor (EGF) and a ROCK inhibitor to produce a cell population expressing a lacrimal gland-related protein. The present invention provides a lacrimal gland organoid produced from pluripotent stem cells including iPS cells and thus is very useful for cell-based regenerative therapy for lacrimal gland-related diseases and cell-based research on the diseases.

An immortalized sweat gland myoepithelial cell which expresses -SMA and pan-cytokeratin and has a sphere forming ability after subculture at least 5 times. A method for producing immortalized sweat gland myoepithelial said method comprising: while culturing a cell structure, wherein sweat gland myoepithelial cells are exposed on a surface, in a state of being suspended in a medium, transferring an immortalizing gene into the cells; and then culturing the transgenic structure thus obtained in a state of being suspended in the medium to thereby obtain immortalized sweat gland myoepithelial cells.