The present invention relates to methods for developing engineered T-cells for immunotherapy that are non-alloreactive. The present invention relates to methods for modifying T-cells by inactivating both genes encoding T-cell receptor and an immune checkpoint gene to unleash the potential of the immune response. This method involves the use of specific rare cutting endonucleases, in particular TALE-nucleases (TAL effector endonuclease) and polynucleotides encoding such polypeptides, to precisely target a selection of key genes in T-cells, which are available from donors or from culture of primary cells. The invention opens the way to standard and affordable adoptive immunotherapy strategies for treating cancer and viral infections.

A composition, for inducing chondrocyte differentiation or regenerating cartilage tissue or both, includes exosomes derived from stem cells differentiating into chondrocytes.

The invention relates to differentiation methods for progenitor cells, e.g. mammalian epithelial stem cells, differentiation media for use in said methods, organoids and cells obtainable by said methods and uses, including therapeutic uses, thereof.

Disclosed herein are induced hepatocytes from a trophoblast stem cell, methods for inducing the cells, and compositions thereof. Also disclosed herein are methods of treating a disease or disorder (e.g., liver-associated) by utilizing an induced hepatocyte disclosed herein.

The invention relates to a method for manufacturing a bio-ink by additive deposition, which comprises supplying: a first solution including between 5 and 40 wt. % gelatin; a second solution including between 15 and 35.wt. % alginate; a third solution including between 1 and 15 wt. % fibrinogen, and optionally living cells in suspension; and creating a mixture including: around 35 to 65 vol. % of the first solution; around 15 to 35 vol. % of the second solution; and around 15 to 35 vol. % of the third solution, said proportions being selected so that they add up to 100%. Said bio-ink allows the additive deposition of objects that can be polymerised by means of a solution including calcium ions and thrombin. Said objects can be incubated and can be used as a substitute for body tissue, for example (with added fibroblasts) as skin substitute.

Methods for derivation, culture, and maturation of small hepatic progenitor cells are described.

The present invention relates to a method for preparing oncolytic virus-containing mesenchymal stem cells having improved cell viability, a method for storing the oncolytic virus-containing stem cells produced by the method, and a cell therapeutic agent for cancer treatment containing the oncolytic virus-containing stem cells produced by the method. More particularly, an oncolytic virus is introduced into mesenchymal stem cells, followed by treatment with aspirin, so that the infection efficiency of the oncolytic virus may be increased, the replication time of the virus may be prolonged, and lysis of the stem cells by the virus may be prevented, thereby improving the viability and survival period of the stem cells and preparing anticancer stem cells having excellent activity. The anticancer stem cell therapeutic agent produced in this way is maintained at high viability during cold storage due to aspirin treatment, and thus is very useful medically and industrially.

The purpose of the invention is to provide a novel hematopoiesis-promoting agent and a medicament comprising the hematopoiesis-promoting agent as an active ingredient for preventing or treating anemia, in particular refractory anemia. The present invention provides a hematopoiesis-promoting agent comprising an S-adenosylmethionine synthase inhibitor.

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.

The invention described herein is directed to compositions and methods for inducing red blood cell (RBC) differentiation. Additionally, provided herein are methods of treating a subject in need thereof by administering the induced RBC described herein.