The present invention provides methods or kits with inflammatory cytokines to pretreat 1-ISCs to augment their immune modulatory effect, in prevention and treatment of various diseases such as multiple sclerosis, arthritis, lupus, sepsis, hepatitis, cirrhosis, Parkinson's disease, chronic infections, and GvHD. The present invention relates to novel methods for enhancing the immunosuppressive or the immune stimulatory activities of mesenchymal stem cells (JvfSCs).

The disclosure provides methods of making CAR-expressing immune effector cells (e.g., T cells, or NK cells), and compositions and reaction mixtures comprising the same. The disclosure further provides methods of using said CAR-expressing immune effector cells.

The present invention provides methods or kits with inflammatory cytokines to pretreat 1-ISCs to augment their immune modulatory effect, in prevention and treatment of various diseases such as multiple sclerosis, arthritis, lupus, sepsis, hepatitis, cirrhosis, Parkinson's disease, chronic infections, and GvHD. The present invention relates to novel methods for enhancing the immunosuppressive or the immune stimulatory activities of mesenchymal stem cells (JvfSCs).

Disclosed are means, methods, and compositions of matter useful for augmentation of a vaccine induced antitumor immune response through immunological targeting of tumor endothelium. In one embodiment a cancer antigen specific vaccine is combined with an endothelial targeting vaccine in a manner to facilitate release of tumor antigens as a result of endothelial destruction. The released tumor antigens serve to amplify immune response induced by the cancer antigen specific vaccine. In one embodiment an endogenous cancer vaccine is utilized as a source of immunization. The endogenous cancer vaccine may be cancer cells induced to die locally such as by means of: hyperthermia, irradiation, oncolytic virus exposure, and embolization.

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.

Provided are methods of treatment comprising administering to a subject, in need thereof, a therapeutically effective amount of activated stem cells to the affected tissue or organ. The methods described herein are treatment modalities employing mesenchymal stem cells (MSC) in the treatment of mammals, as well as MSC purification and formulation methods including the activation or preconditioning of stem cells.

The present invention provides methods or kits with inflammatory cytokines to pretreat 1-ISCs to augment their immune modulatory effect, in prevention and treatment of various diseases such as multiple sclerosis, arthritis, lupus, sepsis, hepatitis, cirrhosis, Parkinson's disease, chronic infections, and GvHD. The present invention relates to novel methods for enhancing the immunosuppressive or the immune stimulatory activities of mesenchymal stem cells (JvfSCs).

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.

The present invention provides methods or kits with inflammatory cytokines to pretreat 1-ISCs to augment their immune modulatory effect, in prevention and treatment of various diseases such as multiple sclerosis, arthritis, lupus, sepsis, hepatitis, cirrhosis, Parkinson's disease, chronic infections, and GvHD. The present invention relates to novel methods for enhancing the immunosuppressive or the immune stimulatory activities of mesenchymal stem cells (JvfSCs).

The present invention provides methods or kits with inflammatory cytokines to pretreat 1-ISCs to augment their immune modulatory effect, in prevention and treatment of various diseases such as multiple sclerosis, arthritis, lupus, sepsis, hepatitis, cirrhosis, Parkinson's disease, chronic infections, and GvHD. The present invention relates to novel methods for enhancing the immunosuppressive or the immune stimulatory activities of mesenchymal stem cells (JvfSCs).