A method for the mass proliferation of urine-derived multipotent cells and a medium composition for the mass proliferation of urine-derived multipotent cells according to the present invention can be used to massively proliferate urine cells by efficiently isolating the same even from urine that has been left alone for a long period of time, and can be used to produce multipotent cells having characteristics of epithelial cells, mesenchymal cells, and stem cells.

Provided is a method for isolating a ureteric bud tip cell from cells, a tissue, or an organoid comprising the ureteric bud tip cell, comprising the following steps of contacting the cells, tissue, or organoid comprising the ureteric bud tip cell with a very low density lipoprotein receptor (VLDL-R) binding agent, and isolating the ureteric bud tip cell using the binding agent as an indicator.

An organ for transplantation having a kidney, a ureter, and a urinary bladder and an organ structure in which a first ureter, a first urinary bladder, a second ureter and a second urinary bladder are sequentially connected to a kidney can produce urine and excrete the produced urine, and thus is useful for transplantation.

The present invention relates to microfluidic fluidic devices, methods and systems as microfluidic kidney on-chips, e.g. human Proximal Tubule-Kidney-Chip, Glomerulus (Kidney)-Chip, Collecting Duct (Kidney)-Chip. Devices, methods and systems are described for drug testing including drug transport and renal clearance. Further, such devices, methods and systems are used for determining drug-drug interactions and their effect upon renal transporter functions. Importantly, they may be used for pre-clinical and clinical drug development for treating kidney diseases and for personalized medicine.

A method for preparing myotubes in a non-invasive and simple manner and establishes an in vitro test system of an agent used for exon skipping therapy for muscular dystrophy. The method can prepare myotubes from urine-derived cells by introducing the MYOD 1 gene into urine-derived cells and exposing the urine-derived cells to at least one epigenetic regulatory compound.

An exemplary method can be provided for producing ureteric bud cells from pluripotent stem cells, in vitro. Further, an exemplary method can be provided for producing ureteric bud cells and Wolffian duct (WD) progenitor-like cells that are a progenitor of the ureteric bud cells. Another exemplary method can be provided for producing Wolffian duct (WD) progenitor-like cells that can comprise obtaining C-X-C chemokine receptor 4 (CXCR4) positive and KIT proto-oncogene receptor tyrosine kinase (KIT) positive cells. In addition, an exemplary method can be provided for producing ureteric-bud-like cells using WD progenitors that are CXCR4+ and KIT+, and another exemplary method can be provided for producing kidney organoids in which the ureteric-bud-like cells can be used.

The present invention relates to microfluidic fluidic devices, methods and systems as microfluidic kidney on-chips, e.g. human Proximal Tubule-Kidney-Chip, Glomerulus (Kidney)-Chip, Collecting Duct (Kidney)-Chip. Devices, methods and systems are described for drug testing including drug transport and renal clearance. Further, such devices, methods and systems are used for determining drug-drug interactions and their effect upon renal transporter functions. Importantly, they may be used for pre-clinical and clinical drug development for treating kidney diseases and for personalized medicine.

The application provides a system for continuous cell production, comprising: a culture container; and a polymer blended layer arranged on the inner surface of the culture container; wherein, the polymer blended layer is a pH-responsive polymer blended with nylon. Additionally, a method for continuous cell production using the system of the present application is provided.

Provided is a method for efficiently proliferating an influenza virus serving as a material for vaccine in a host.

A method for proliferating an influenza virus in a host, comprising a step of inhibiting transfer of Bax in a host cell to the inner mitochondrial membrane.

An object of the present invention is to provide a ventral hindgut organoid for producing a bladder organoid that comprises a layer structure of bladder epithelial cell types like the urinary bladder. An aspect of the present invention is to provide a method for producing a ventral hindgut organoid, comprising culturing a pluripotent stem cell with an inducer medium A containing activin A and GSK3β inhibitor to induce differentiation into definitive endoderm cells and culturing the definitive endoderm cells with an inducer medium B containing fibroblast growth factor, GSK3β inhibitor, and optionally further containing bone morphogenetic protein, and then culturing them in the presence of extracellular matrix with an inducer medium B containing fibroblast growth factor, GSK3β inhibitor, and optionally further containing bone morphogenetic protein to form a ventral hindgut organoid.