Provided is a muscle stem cell in vitro culture method. A muscle stem cell is cultivated in vitro by using a cell culture medium of a cell factor added with a blood cell or a conditioned medium of the blood cell. Also provided is a culture medium used in the muscle stem cell in vitro culture method and an application thereof.

In the present invention, it was discovered that when vascular endothelial cells are co-cultured with mesenchymal stem cells, an improvement is brought about in the niche activity of mesenchymal stem cells and the self-renewal of hematopoietic or neural stem cells and particularly that the niche activity and the self-renewal of hematopoietic or neural stem cells can easily be controlled by regulating the stimulus (cytokines, etc.) of vascular endothelial cells to the mesenchymal stem cells. Therefore, the present invention can not only improve the self-renewal of stem cells, but also easily control it as needed, and thus is expected to expand the usefulness of mesenchymal stem cell-based cell therapy.

The invention provides a method for influencing the stability of an antibody producing cell, comprising directly or indirectly influencing the amount of BCL6 and/or Blimp 1 expression product within said antibody producing cell. Stable antibody producing cells and cell lines are also provided, as well as methods for producing antibodies using such cells and/or cell lines.

The present invention provides an isolated cell composition suitable for adoptive immunotherapy, as well as methods of manufacturing the cell compositions and methods of treatment with the cell compositions. The composition comprises, in a pharmaceutically acceptable carrier, at least about 10.sup.6 CD8+ T cells specific for target peptide antigen(s). In various embodiments, the composition is predominately CD8+ T cells, and at least about 20% of T cells in the composition exhibit a central or effector memory phenotype, providing for a robust and durable adoptive therapy from a natural T cell repertoire that has undergone natural selection.

The present disclosure relates to the in vitro differentiation of memory B cells to plasmablasts or plasma cells and genetic modification of these cells to express a protein of interest, such as a specific antibody or other protein therapeutic.

A method of manufacturing a multilayered cell sheet of neural crest stem cells (NCSCs), includes: (1) isolating and culturing NCSCs from peripheral nerves; (2) embedding the cultured NCSCs in a hydrogel; (3) culturing the hydrogel comprising the NCSCs embedded therein under stressed culture conditions in which a physical support is applied; and (4) culturing the resulting hydrogel of step (3) under non-stressed culture conditions in which a physical support is removed.

Many cell types in the body can remove apoptotic and cellular debris from tissues; however, the professional phagocyte, or antigen presenting cell (APC), has a high capacity to do so. The recognition of apoptotic cells (ACs) occurs via a series of evolutionarily-conserved, AC associated molecular-pattern receptors (ACAMPRs) on APCs that recognize and bind corresponding apoptotic-cell-associated molecular patterns (ACAMPs). These receptors recognize ligands such as phosphotidyl serine and oxidized lipids found on apoptotic cells. Savill et al. (2002); and Gregory et al. (2004).

A method for treating a disease, disorder, condition or injury of the Central Nervous System (CNS) in a subject in need thereof, comprising administering to said subject a therapeutically effective amount of an active ingredient, such as a non-encephalitogenic or weakly encephalitogenic combination of a Th1 adjuvant and a CNS-specific antigen, causing activation of the choroid plexus of said subject and maintaining said activation by reducing immunosuppression and establishing Th1-type immune response at the choroid plexus thus allowing either anti-inflammatory immune cells or immune cells which acquire a healing phenotype at the cerebrospinal fluid to pass through the choroid plexus, and accumulate at a site of damage in the CNS caused by said disease, disorder, condition or injury is provided.

Herein is reported a method for co-cultivating one or more B-cells comprising the step of incubating the one or more B-cells with EL4-B5 cells, whereby the EL4-B5 cells have been obtained/are from a cultivation of EL4-B5 cells that has a cell density of from 600,000 cells/ml up to 1,500,000 cells/ml.

Provided is a method for producing an economical bovine serum composition containing many factors useful for cell proliferation. The method includes a step of performing an anticoagulation treatment of bovine whole blood with an anticoagulant, a step of obtaining a buffy coat and a fraction with a heavier specific gravity than that of the buffy coat from the anticoagulated whole blood, and a step of promoting and activating an interaction between the obtained leukocytes and platelets at a given temperature for not less than a given time to cause secretion or release of a humoral factor from the leukocytes and/or platelets and performing a recoagulation treatment of blood components including the humoral factor with a re-coagulating agent.