Abstract: The present inventors have found that HMGB1 fragment peptides having a particular amino acid sequence exhibit the effects of improvement of cardiac function, inhibition of cardiomyocyte hypertrophy, inhibition of myocardial fibrosis, and promotion of angiogenesis in an animal model of dilated cardiomyopathy, that the particular HMGB1 fragment peptides also exhibit the effects of improvement of cardiac function, inhibition of cardiomegaly, inhibition of cardiomyocyte hypertrophy, inhibition of myocardial fibrosis, and promotion of angiogenesis in an animal model of ischemic cardiomyopathy caused by old myocardial infarction, and that the particular HMGB1 fragment peptides exhibit the effects of inhibition of cardiomyocyte hypertrophy and inhibition of myocardial fibrosis in an animal model of hypertensive cardiomyopathy.

Abstract: The present disclosure includes a composition for use in the treatment of dystrophic epidermolysis bullosa, comprising a blister-derived cell of a patient with dystrophic epidermolysis bullosa that is genetically modified to produce type VII collagen.

Abstract: The present inventors revealed the following for the first time in the world: 1) a large amount of bone marrow-derived cells are mobilized to grafted skin; 2) the mobilized bone marrow-derived cells are differentiated into any of dermal fibroblasts, adipocytes, muscle cells, vascular endothelial cells, and epidermal keratinocytes in the grafted skin, and the mobilized bone marrow-derived cells include bone marrow-derived mesenchymal stem cells; 3) the factors which mobilize bone marrow-derived mesenchymal stem cells from peripheral blood to the grafted skin are HMGB1, HMGB2, and HMGB3 released from the necrosed tissue of recipient skin; 4) purified HMGB1, HMGB2, and HMGB3 promote the migration of mesenchymal stem cells isolated and cultured from bone marrow; 5) activators containing HMGB1 which allows the migration of bone marrow mesenchymal stem cells can be conveniently purified from several organ extracts including skin, brain, and heart; 6) activators which allow the migration of bone marrow mesenchyma

Abstract: The present inventors have found that HMGB1 fragment peptides having a particular amino acid sequence exhibit the effects of improvement of cardiac function, inhibition of cardiomyocyte hypertrophy, inhibition of myocardial fibrosis, and promotion of angiogenesis in an animal model of dilated cardiomyopathy, that the particular HMGB1 fragment peptides also exhibit the effects of improvement of cardiac function, inhibition of cardiomegaly, inhibition of cardiomyocyte hypertrophy, inhibition of myocardial fibrosis, and promotion of angiogenesis in an animal model of ischemic cardiomyopathy caused by old myocardial infarction, and that the particular HMGB1 fragment peptides exhibit the effects of inhibition of cardiomyocyte hypertrophy and inhibition of myocardial fibrosis in an animal model of hypertensive cardiomyopathy.

Abstract: The present inventors synthesized a plurality of peptides each consisting of a partial sequence of the artificial sequence peptide “1r10” (1r10 fragment peptides), which was discovered from their own research conducted to date, investigated whether they have an activity of mobilizing mesenchymal stem cells into peripheral blood, and as a result, discovered that a 1r10 fragment peptide having a specific amino acid sequence shows the activity. Based on such finding, a peptide is provided which is considered to show therapeutic effects on various diseases through mobilization of mesenchymal stem cells into peripheral blood.

Abstract: (Objective) An objective of the present invention is to provide therapeutic agents that, in association with stimulation of PDGFR?-positive cells such as bone marrow mesenchymal stem cells, promote their mobilization into blood and accumulation in a damaged tissue, and induce tissue regeneration in a living body. (Means for solution) Multiple peptides were synthesized, and the migration-promoting activity of each peptide was evaluated. As a result, the present inventors successfully identified multiple peptides that have migration-promoting activity on a PDGFR?-positive bone marrow mesenchymal stem cell line (MSC-1). Further, the present inventors confirmed that the identified peptides also have migration-promoting activity on skin fibroblasts, which are PDGFR?-positive cells.

Abstract: The present inventors discovered that an HMGB1 fragment peptide having a specific amino acid sequence exhibits an effect of suppressing erythema, scaling (desquamation), and thickening (infiltration) of the skin in an animal model of psoriasis. Based on these findings, pharmaceutical compositions for the prevention and/or treatment of psoriasis, which comprise the HMGB1 fragment peptide having the specific amino acid sequence are provided.

Abstract: The present disclosure includes a composition for promoting growth or suppressing decrease of mesenchymal stem cells comprising serpin A3.

Abstract: The present inventors discovered that an HMGB1 fragment peptide having a specific amino acid sequence exhibits an effect of suppressing weight loss and an effect of suppressing shortening of the large intestine and mucosal damage in an animal model of inflammatory bowel diseases. Based on these findings, pharmaceutical compositions for the prevention and/or treatment of inflammatory bowel diseases, which comprise the HMGB1 fragment peptide having the specific amino acid sequence are provided.

Abstract: The present disclosure relates to a composition for use in the treatment of dystrophic epidermolysis bullosa, comprising a cell obtained from a patient with dystrophic epidermolysis bullosa, wherein the cell is a mesenchymal stem cell and genetically modified to produce type VII collagen. The present disclosure also relates to a composition for use in the treatment of dystrophic epidermolysis bullosa, comprising a cell that produces type VII collagen, wherein the composition is to be administered into a blister.

Abstract: It was revealed that the intravenous administration of HMGB-1 and S100A8 promoted the healing of skin ulcer by recruiting bone marrow-derived cells to the site of skin ulcer. Furthermore, when HMGB-1 was intravenously administered to cerebral infarction model mice after creation of cerebral infarction, bone marrow-derived cells expressing nerve cell markers were detected in their brain. A marked cerebral infarct-reducing effect was observed in mice intravenously administered with HMGB-1 as compared to the control. The post-cerebral infarction survival rate was increased in the intravenous HMGB-1 administration group. The involvement of bone marrow pluripotent stem cells in the process of bone fracture healing was assessed using mice, and the result demonstrated that bone marrow-derived cells distant from the damaged site migrated to the bone fracture site to repair the damaged tissue.

Abstract: The present inventors designed an artificial sequence peptide based on the results of original research conducted so far, and found that the peptide exhibits an activity of mobilizing mesenchymal stem cells into peripheral blood. The present inventors also found that the artificial sequence peptide has a therapeutic effect on inflammatory bowel disease, atopic dermatitis, and cerebral infarction. Based on these findings, a new regenerative medicine technology that can overcome the problems of cell transplantation therapy is provided.

Abstract: The inventors of the present invention searched for a substance that is effective in treating a cartilage disorder, and as a result, found that, in an animal model of joint cartilage deficiency, an HMGB1 fragment peptide having a specific amino acid sequence exhibits the effect of reproducing a healthy cartilage tissue including a hyaline cartilage. Based on this finding, the present invention provides a pharmaceutical composition that contains the specific HMGB1 fragment peptide and that is for preventing and/or treating a cartilage disorder.

Abstract: Biologically low invasive vessels are filled with biological factors that have the activity of mobilizing specific functional cells in the body. The vessels are indwelled in the body. After specific functional cells are mobilized into the vessels, the vessels are removed from the body to collect functional cell populations mobilized to the vessels. Alternatively, the cells are directly collected from the vessels indwelled in the body.

Abstract: It was revealed that the intravenous administration of HMGB-1 and S100A8 promoted the healing of skin ulcer by recruiting bone marrow-derived cells to the site of skin ulcer. Furthermore, when HMGB-1 was intravenously administered to cerebral infarction model mice after creation of cerebral infarction, bone marrow-derived cells expressing nerve cell markers were detected in their brain. A marked cerebral infarct-reducing effect was observed in mice intravenously administered with HMGB-1 as compared to the control. The post-cerebral infarction survival rate was increased in the intravenous HMGB-1 administration group. The involvement of bone marrow pluripotent stem cells in the process of bone fracture healing was assessed using mice, and the result demonstrated that bone marrow-derived cells distant from the damaged site migrated to the bone fracture site to repair the damaged tissue.

Abstract: The present inventors identified many nuclear proteins contained in the extract of skin tissue by mass spectrometry, randomly selected multiple partial amino acid sequences of the nuclear proteins, chemically synthesized peptides consisting of the partial amino acid sequences, and examined their activity of mobilizing mesenchymal stem cells. As a result, it was found that these multiple peptides show the activity of mobilizing mesenchymal stem cells into peripheral blood, even though their amino acid sequences are completely different from each other. The inventors also found that fragment peptides of the nuclear proteins have therapeutic effects on diseases characterized by inflammation and abnormalities of the immune system (e.g., inflammatory bowel disease and psoriasis). Based on these findings, a new regenerative medicine technology that can overcome the problems of cell transplantation therapy is provided.

Abstract: The present inventors discovered that an HMGB1 fragment peptide having a specific amino acid sequence exhibits an effect of suppressing erythema, scaling (desquamation), and thickening (infiltration) of the skin in an animal model of psoriasis. Based on these findings, pharmaceutical compositions for the prevention and/or treatment of psoriasis, which comprise the HMGB1 fragment peptide having the specific amino acid sequence are provided.

Abstract: The present inventors discovered that an HMGB1 fragment peptide having a specific amino acid sequence exhibits an effect of suppressing weight loss and an effect of suppressing shortening of the large intestine and mucosal damage in an animal model of inflammatory bowel diseases. Based on these findings, pharmaceutical compositions for the prevention and/or treatment of inflammatory bowel diseases, which comprise the HMGB1 fragment peptide having the specific amino acid sequence are provided.

Abstract: (Objective) An objective of the present invention is to provide therapeutic agents that, in association with stimulation of PDGFR?-positive cells such as bone marrow mesenchymal stem cells, promote their mobilization into blood and accumulation in a damaged tissue, and induce tissue regeneration in a living body. (Means for solution) Multiple peptides were synthesized, and the migration-promoting activity of each peptide was evaluated. As a result, the present inventors successfully identified multiple peptides that have migration-promoting activity on a PDGFR?-positive bone marrow mesenchymal stem cell line (MSC-1). Further, the present inventors confirmed that the identified peptides also have migration-promoting activity on skin fibroblasts, which are PDGFR?-positive cells.

Abstract: The inventors discovered that ectodermal mesenchymal stem cells circulating in peripheral blood that are induced by necrotic tissue damage contribute to the regeneration of damaged tissue. On the basis of this discovery, provided are ectodermal mesenchymal stem cells, a method for producing the same, and a screening method for a substance having pluripotent stem cell inductive activity, the screening method using cells induced by necrotic tissue damage in peripheral blood as an index.