The present invention provides an efficient process for culturing viruses in the presence of an endonuclease and for producing vaccines, typically from live attenuated viruses, under conditions to reduce the presence of host cell DNA and eliminate the need for a post-harvest DNA digestion step.

The present application provides materials and methods for treating hemoglobinopathies. More specifically, the application provides methods for producing progenitor cells that are genetically modified via genome editing to increase the production of fetal hemoglobin (HbF), as well as modified progenitor cells (including, for example, CD34.sup.+ human hematopoietic stem cells) producing increased levels of HbF, and methods of using such cells for treating hemoglobinopathies such as sickle cell anemia and β-thalassemia.

The present invention relates to compositions, kits and methods for making and using RNA compositions comprising in vitro-synthesized ssRNA inducing a biological or biochemical effect in a mammalian cell or organism into which the RNA composition is repeatedly or continuously introduced. In certain embodiments, the invention provides compositions and methods for changing the state of differentiation or phenotype of a human or other vertebrate cell. For example, the present invention provides mRNA and methods for reprogramming cells that exhibit a first differentiated state or phenotype to cells that exhibit a second differentiated state or phenotype, such as to reprogram human somatic cells to pluripotent stem cells.

The present invention provides a method for inducing an inversion of normal blood coagulation factor VIII (F8) gene, a method for correcting an inversion of blood coagulation factor VIII gene in which the inversion has occurred, and a Hemophilia A patient-derived induced pluripotent stem cell in which the inversion is corrected, constructed using the same. The method of the present invention effectively reproduces the inversion of intron 1 and intron 22 of the F8 gene, which is responsible for the majority of severe hemophilia A, and thereby may be effectively used for studying the development mechanism of hemophilia A and as a research tool for screening therapeutic agents. The inversion-corrected induced pluripotent stem cell constructed according the method of the present invention enables an efficient and fundamental treatment for hemophilia A by restoring a genotype in which mutation has occurred to a wild type-like state, without limitation via normal gene or protein delivery.

Described are cell culture solutions and systems for epithelial stem cell and organoid cultures, formation of epithelial constructs and uses of the same in transplantation.

This invention provides a method for stably producing alveolar epithelial progenitor cells from pluripotent stem cells, including steps of culturing pluripotent stem cells in (1) a medium containing activin A and a GSK3β inhibitor, (2) a medium containing a BMP inhibitor and a TGFβ inhibitor, and (3) a medium containing BMP4, retinoic acid, and a GSK3β inhibitor.

The present invention provides a method for producing a cell aggregate containing a ciliary marginal zone-like structure, including a step of culturing a cell aggregate containing a retinal tissue in which Chx10 positive cells are present in a proportion of 20% or more and 100% or less of the tissue in a serum-free medium or serum-containing medium each containing a substance acting on the Wnt signal pathway and a substance inhibiting the FGF signal pathway for only a period before the appearance of a RPE65 gene expressing cell, followed by culturing the “cell aggregate in which a RPE65 gene-expressing cell does not appear” thus obtained in a serum-free medium or serum-containing medium each free of a substance acting on the Wnt signal pathway and so on. According to the production method of the present invention, a ciliary marginal zone-like structure can be produced with high efficiency.

The present invention refers to exosomes obtained from fibro-adipogenic progenitors (FAPs) previously exposed to histone deacetylase (HDAC) inhibitors. It also relatesto such exosomes for the use in the treatment of muscular dystrophies, in particular in the treatment of Duchenne Muscular Dystrophy. Pharmaceutical compositions comprising such exosomes and their medical uses are also within the scope of the present invention.

The present invention generally relates to a method for generating induced oligodendrocyte-lineage cells (induced OLGs) and treatment using such cells. The induced OLGs are useful in cell therapy, in particular for demyelinating diseases.

A method is described herein for generating antigen-specific memory T. cells for effective immunotherapy responses using pan inhibitors of lysine deacetylase (KDAC), The present invention features the introduction of pan KDAC inhibitors during T-cell culture and/or vaccination to tune T cell differentiation into memory T cells for persistent antigen-specific responses. The current invention can be applied to the generation of personalized immunotherapies, including: 1) durable immunotherapy generation for the pharmaceutical industry; 2) patient-specific immunotherapy tor personalized medicine; and 3) specific memory T cell population generation or T cell therapy for cancer and/or infections for personalized cancer immunotherapy. The present invention relates to a method to induce acquired T cell differentiation towards the generation of specific memory T cells with selective functions for treatment.