An application of a transgenic stem cell-derived exosome in preparing a medicament or whitening cosmetic is provided. In the present disclosure, miR-27b-3p is transfected into an epidermal stem cell, and a transgenic stem cell-derived exosome is harvested. It is experimentally verified that the exosome can inhibit the expression of PIK3R3 protein in melanocytes and the proliferation and migration of melanocytes; and safety experiments further demonstrate the safety of the exosome. Therefore, corresponding medicaments or cosmetics prepared from the exosome have excellent medicinal and cosmetic application prospects.

The present disclosure relates to a hydrogel including a decellularized tissue-derived extracellular matrix functionalized with a phenol derivative, and a composition for cell culture, a composition for promoting cell differentiation, a tissue adhesive composition, a composition for drug delivery, a composition for promoting tissue regeneration and a composition for tissue implantation, each including the hydrogel. The hydrogel can be usefully used in the field of tissue engineering.

An object of the present invention is to provide a new means for suppressing inhibition of proliferation of keratinocytes even when the keratinocytes start to come into contact with each other. The present invention solves the above problem by culturing keratinocytes in contact with a common medium with fibroblasts treated with a composition containing a specific compound.

Presented herein are compositions and methods for the long-term in vitro culturing of Treponema species such as T. pallidum. Culture media and systems for Treponema culture are also provided.

Provided is a medium composition for differentiation of a human induced pluripotent stem cell to a dermal papilla precursor cell, a differentiation method, and a use for inducing hair follicle neogenesis using the differentiated dermal papilla precursor cell. Further provided is a method for differentiating a human induced pluripotent stem cell into a dermal papilla precursor cell having hair follicle forming ability and a composition of a dermal papilla precursor cell specific differentiation medium for the above differentiation, and have effectively induced hair follicle neogenesis consisting only of human cells without conventional mouse-human hybrid hair follicles by using the human induced dermal papilla precursor cell and a human induced epidermal precursor cell obtained through the differentiation method. Human hair follicle tissue produced is expected to be useful as a therapeutic method for patients suffering from hair loss by overcoming the limitations of hair loss treatments.

To provide a culture supernatant preparation which has excellent biocompatibility and contains a large quantity of specific genes or proteins. A method for producing the culture supernatant preparation including: a first culturing step of culturing cells to a confluent state using a first medium; a second culturing step of culturing the cells using a second medium that is different from the first medium after the first culturing step; and a culture supernatant preparation obtaining step of obtaining the culture supernatant preparation including the second medium after the second culturing step, the second medium including a calcium ion and a buffering agent.

Provided are a cell-containing hydrogel body and a method of producing the same, which enable simple and effective control of the size of a boundary surface for an interaction between cells. The method of producing a cell-containing hydrogel body includes: forming, under a gas phase, a first hydrogel droplet on a surface of a substrate, the first hydrogel droplet containing first cells being dispersed therein and a first hydrogel polymer; forming, under a gas phase, a second hydrogel droplet on the surface, the second hydrogel droplet containing second cells being dispersed therein and a second hydrogel polymer, the second hydrogel droplet being combined with the first hydrogel droplet; and forming, under a gas phase, a cell-containing hydrogel body on the surface by gelling a hydrogel droplet-combined body including a first droplet portion derived from the first hydrogel droplet and a second droplet portion derived from the second hydrogel droplet.

The disclosure provides a device for developing organized tissue strips, such as cardiac tissue strips, for high-throughput assays of functional performance and the methods involved in fabricating, assembling, implementing, utilizing and analyzing data from such assays. The disclosure further provides systems for constructing such devices, systems comprising those devices comprising cells and extracellular matrix material for developing organized tissue strips or comprising the devices and organized tissue strips. The disclosure further provides methods for assaying a property of a tissue strip, such as contractile force.

The present invention discloses a method of inducing and differentiating human skin-derived precursors into corneal endothelial-like cells. The present invention utilizes human skin-derived precursors to induce corneal endothelial-like cells that are theoretically close to normal human corneal endothelial cells successfully by co-culturing with B4G12 corneal endothelial cells. Furthermore, the obtained corneal endothelial-like cells are applied to a corneal endothelial decompensation animal model, and corneal endothelium of the animal is successfully repaired, which has an important clinical application prospect.

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).