The present disclosure relates to a method for producing dental pulp-derived cells enriched with pluripotent stem cells including: (a) digesting dental pulp with a protease to prepare a dental pulp suspension; (b) culturing the suspension to proliferate pluripotent stem cells contained in the suspension; (c) freezing the proliferated pluripotent stem cells in a state in which the pluripotent stem cells are suspended in a first cryopreservation liquid; (d) thawing the frozen pluripotent stem cells; (e) culturing the thawed pluripotent stem cells in a state in which the pluripotent stem cells are adhered to surfaces of particles to proliferate the pluripotent stem cells on the surfaces of the particles; and (f) bringing the particles into contact with a protease to separate the pluripotent stem cells adhered to the surfaces of the particles from the particles.

Provided herein are, inter alia, methods for preparing a liquid cell culture media that has lesser lot-to-lot analytical variation, increased performance, and has lesser metal ion concentrations compared to a liquid media prepared by traditional methods. Such liquid media may be used for culturing cells, including but not limited to, recombinant cells.

Provided herein are methods and customized media compositions for culturing NK-92® cells.

The present invention provides a mutated woodchuck post-transcriptional regulatory element (WPRE). In particular, the present invention relates to a mutated WPRE sequence that can efficiently express nucleotides of interest in a retroviral vector system. The present invention also relates to methods of delivering and expressing nucleotides of interest to a target cell.

The present invention provides methods for producing allogeneic T-cells, including the use of an engineered nuclease under the control of a controllable promoter. By preparing T-cells with an inducible nuclease, large volumes of cells can be prepared, each of which contains the ability to individually produce the desired nuclease. These cells can then be modified as desired through the introduction of a gene of interest, or an undesired gene can be knocked-out. Also provided herein are allogeneic T-cells for use in various therapeutic applications.

A novel cell culture method for inducing differentiation of a pluripotent stem cell into trophoblast and an automatic culture apparatus therefor includes: a first step of culturing the pluripotent stem cell in a presence of a ROCK inhibitor during a first time period; a second step of culturing the pluripotent stem cell, which has been subjected to the first step, without the ROCK inhibitor during a second time period following the first time period; and a step of culturing the pluripotent stem cell, which has been subjected to the second step, in the presence of the ROCK inhibitor during a third time period following the second time period, in which the pluripotent stem cell is cultured in a state of being adhered to a cell culture substrate including a planar mesh through the first to third time periods.

Described herein is a method of treating a disorder, the method comprising: administering to a subject in need thereof a composition that contains a population of somatic stem cells that are 0.3-6.0 micrometers in size and CD9+, CD349+, CD133−, CD90−, CD34−, SSEA1+, SSEA4+, CD13+, or Stro1+, wherein the disorder is hair loss, osteoporosis, or a damaged tissue.

The presents invention relates to a composition for manipulating an immune cell which is used for artificially manipulating an immune cell. More particularly, the present invention relates to a composition for manipulating an immune cell which is used for artificially manipulating an immune cell and a manipulated immune cell comprising an artificially modified immunity regulating gene and an artificial receptor which is produced using the composition, and use thereof.

The present invention it was determined that dendritic cells could be derived from various sources including peripheral blood monocytes in the presence of only GM-CSF without other cytokines if the monocytes were not activated. By preventing activation, such as by preventing binding of the cells to the surface of the culture vessel, the monocytes do not require the presence of additional cytokines, such as IL-4 or IL-13, to prevent differentiation into a non-dendritic cell lineage. The immature DCs generated and maintained in this manner were CD14.sup.− and expressed high levels of CD1a. Upon maturation by contact with an agent such as, for example, BCG and IFNγ, the cells were determined to express surface molecules typical of mature dendritic cells purified by prior methods and cultured in the presence of GM-CSF and IL-4. The mature dendritic cells produced from monocytes without activation and cultured in GM-CSF alone are suitable for use in dendritic cell-based immunotherapy methods, such as for use in the treatment of disease, including cancer.

Methods and compositions for modifying glycans (e.g., glycans expressed on the surface of live cells or cell particles) are provided herein.