The present disclosure relates to methods for transiently activating temperature-sensitive agents in one or more cells, for example by contacting one or more cells with a temperature-sensitive agent and transiently incubating the cells at a permissive temperature for inducing an activity of the temperature-sensitive agent in the cells. Additionally, the present disclosure relates to methods of contacting one or more cells in a subject with a temperature-sensitive agent and then lowering the subject's core body temperature to a permissive temperature for inducing an activity of the temperature-sensitive agent in the cells. The disclosure also relates to methods of contacting one or more cells in a subject with a temperature-sensitive agent, maintaining the subject's surface body temperature at a permissive temperature for inducing an activity of the temperature-sensitive agent in the cells. Further disclosed are methods of treating a subject with a temperature-sensitive therapeutic agent.

In related-art methods of differentiating pluripotent stem cells into a desired cell type, there has not been established a differentiation induction method using human ES/iPS cells and being stable and highly efficient. The use of complicated culture steps is a large problem. In addition, there are also large problems in, for example, that the speed of cell differentiation is low, and hence long-period culture is required, and that the differentiation efficiency is low, and hence it is difficult to obtain a sufficient number of required cells. A method of inducing differentiation into a desired cell type, which induces differentiation within a short period of time and with high efficiency by the use of a Sendai virus vector capable of expressing a transcription factor, and as required, the use of a pluripotent stem cell in which an expression amount of a POU5F1 protein has been substantially removed or reduced, is provided.

The present disclosure provides a method of producing a negative-strand RNA virus vector. The present disclosure specifically provides a method of producing a negative-strand RNA virus vector in the presence of a PKR inhibitory factor.

The present disclosure relates generally to methods of producing rejuvenated T cells, comprising, contacting T cells with at least one reprogramming factor and reactivating the contacted cells; and compositions and methods of using same. The present disclosure also describes cell populations prepared according to methods described herein. The disclosure also provides for methods of treating patients using cell populations prepared by the methods described herein.

In related-art methods of differentiating pluripotent stem cells into a desired cell type, there has not been established a differentiation induction method using human ES/iPS cells and being stable and highly efficient. The use of complicated culture steps is a large problem. In addition, there are also large problems in, for example, that the speed of cell differentiation is low, and hence long-period culture is required, and that the differentiation efficiency is low, and hence it is difficult to obtain a sufficient number of required cells. A method of inducing differentiation into a desired cell type, which induces differentiation within a short period of time and with high efficiency by the use of a Sendai virus vector capable of expressing a transcription factor, and as required, the use of a pluripotent stem cell in which an expression amount of a POU5F1 protein has been substantially removed or reduced, is provided.

The present invention addresses the problem of providing an improved negative-strand RNA viral vector enabling transient high expression of a gene carried by the vector, and quick removal of the vector after the expression, and the use thereof. It was found that if a degron is added to a P-protein possessed by a negative-strand RNA viral vector, high-level expression of a gene carried by the vector is transiently induced after introduction of the vector, and thereafter, the vector can be quickly removed in a manner dependent on the degron. In particular, if the degron is added to a temperature-sensitive P-protein, the vector can be removed to a level below the detection limit within two weeks after cells are infected with the vector. Since the present invention is useful for transiently expressing a transcription factor, such as a reprogramming factor or the like, in target cells, and then quickly removing the vector, the present invention is expected to be applied in cell therapy and regenerative medicine.

Methods of gene correction, methods of generating induced pluripotent stem cells (iPSCs), and methods of deriving multi-lineage cell types with therapeutic value. In some embodiments, the gene correction affects the expression and/or function of the functional type VII collagen protein (C7).

Disclosed is a method of reprogramming somatic cells into induced pluripotent stem cells (iPSCs). Also disclosed is a method of producing, selecting, expanding, characterizing, and differentiating iPSCs. Further disclosed is a method of reprogramming somatic cells selected from the group consisting of fibroblasts IMR90, fibroblasts HFF-01, PBMC, CD3+ T cells and CD34+ hematopoietic stem cells (HSCs) into iPSCs.

Compositions for transient but prolonged exogenous mRNA expression through the use of the transcription system of negative strand RNA viruses, and methods of use thereof are disclosed. In some embodiments, the system contains only RNAs and does not include any DNA molecules. The compositions typically include an RNA template unit (rTeUn) that includes a virus regulatory sequences operably linked to a coding sequence of interest. The rTeUn is typically transfected to a host cell's cytoplasm in the presence of virus expression system proteins that mediate replication of the rTeUn and transcription of the transgene. The rTeUn RNA bonded to viral proteins exhibits high resistance to degradation, prolonged duration of expression, and is free of viral genes. The compositions can be used to reprogram cell. For example, the compositions and methods can be used to redirected lymphocytes to target cancer cells, or to dedifferentiate somatic cells into induce pluripotent stem cells.

Provided in the present application are a recombinant sendai virus vector vaccine expressing immunodominant antigens of mycobacterium tuberculosis, and can be used as therapeutic and preventive antituberculosis vaccine.