Methods are provided for treating osteoarthritis by administering αKlotho protein and sTGFβ-R2 protein to a site within a mammal exhibiting symptoms of osteoarthritis, such as a knee joint. The αKlotho protein and the sTGFβ-R2 protein are both present at the osteoarthritic site.

Provided is a method for preventing, ameliorating, or treating degenerative diseases caused by cellular senescence, preferably osteoarthritis or atherosclerosis, comprising a specific peptide as an active ingredient, where the peptide remarkably inhibits the interaction of p53 and FOXO4 (Forkhead box protein O4), thereby inhibiting the expression of a cellular senescence regulator.

Disclosed are means of suppressing production of the inflammatory cytokine TNF-alpha through contact-dependent and contact-independent means by fibroblast populations and products and/or derivatives of fibroblast populations. In one embodiment, fibroblasts are cultured under conditions allowing proliferation of said fibroblasts, wherein said proliferative status of fibroblasts correlates with the ability to directly suppress TNF-alpha production, and/or to release one or more factors capable of suppressing TNF-alpha production. In one embodiment, fibroblasts are used for treatment of inflammatory diseases by their ability to suppress TNF-alpha production. In other embodiments, conditioned media and/or exosomes of said fibroblasts are utilized to treat inflammatory diseases by their ability to suppress TNF-alpha production.

The present invention provides preparations of MSCs with important therapeutic potential. The MSC cells are non-primary cells with an antigen profile comprising less than about 1.25% CD45+ cells (or less than about 0.75% CD45+), at least about 95% CD105+ cells, and at least about 95% CD166+ cells. Optionally, MSCs of the present preparations are isogenic and can be expanded ex vivo and cryopreserved and thawed, yet maintain a stable and uniform phenotype. Methods are taught here of expanding these MSCs to produce a clinical scale therapeutic preparations and medical uses thereof.

Mesenchymal stem cells (MSCs) or a pharmaceutical composition comprising a therapeutically effective amount of MSCs can be used in the treatment of osteoarthritis in canines and felines. For example, the MSCs or pharmaceutical composition can be used in the treatment of lameness and/or joint pain in canines and felines diagnosed with or suffering from osteoarthritis. A pharmaceutical composition comprising MSCs can be isolated from peripheral blood.

Mesenchymal stem cells (MSCs) or a pharmaceutical composition comprising a therapeutically effective amount of MSCs can be used in the treatment of osteoarthritis in canines and felines. For example, the MSCs or pharmaceutical composition can be used in the treatment of lameness and/or joint pain in canines and felines diagnosed with or suffering from osteoarthritis. A pharmaceutical composition comprising MSCs can be isolated from peripheral blood.

The present invention relates to immunoglobulins that bind FcγRIIb+ cells and coengage the antigen on the cell's surface and an FcγRIIb on the cell's surface, methods for their generation, and methods for using the immunoglobulins.

The present disclosure relates to methods for increasing telomere length in one or more human cells and/or increasing genome stability of one or more human cells, for example by contacting one or more human cells with an agent that increases expression of Zscan4 in the one or more human cells. Methods of treating a subject in need of telomere lengthening, treating a disease or condition associated with a genomic and/or chromosome abnormality, of rejuvenating one or more human cells, of rejuvenating tissues or organs, and of rejuvenating a subject in need thereof, for example by contacting one or more human cells in the subject with an agent that increases expression of Zscan4, or by administering to a subject in need thereof, an agent that increases expression of Zscan4 are also provided.

A method for treating a subject having a medical condition associated with inflammation and/or an unwanted immune response without an alpha1-antitrypsin (AAT) deficiency, wherein the method comprises administering genetically modified mesenchymal stem cells to the subject, wherein said genetically modified mesenchymal stem cells comprise an exogenous nucleic acid comprising (i) an Alpha-1 antitrypsin (AAT) encoding region operably linked to (ii) a promoter or promoter/enhancer combination.

The present invention includes compositions and methods for treating disease and disorders associated with pathological calcification or pathological ossification.