The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells.

The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells.

The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells.

The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells.

A method of treating neurodegenerative diseases using hUCB plasma is presented herein. hUCB plasma attenuated the hyperactive response (Group III) and potentiated the normal response in Group I ALS patients, but did not alter that of the non-responders to PHA (Group II). The elevated activity of caspase 3/7 observed in the MNCs from ALS patients was significantly reduced by hUCB plasma treatment. The ability of hUCB plasma to modulate the mitogen cell response and reduce caspase activity suggest that the use of hUCB plasma alone, or with stem cells, may prove useful as a therapeutic in ALS patients. hUCB plasma was shown to increase therapeutic efficacy of MNCs as well as decrease apoptosis of MNCs. The cytokine profile of hUCB plasma supports its usefulness as a sole therapeutic as well as an additive to MNCs.

The present invention relates to compositions that comprise monocytes that enhances the survival of stem cells and methods of transplanting such compositions for treating various conditions.

The present invention relates to compositions that comprise monocytes that enhances the survival of stem cells and methods of transplanting such compositions for treating various conditions.

The invention provides methods of modulating follicular regulatory T (TFR) cell-mediated immune responses, follicular helper T (TFH) cell-mediated immune responses or both, and the use of those methods in the treatment of diseases or conditions mediated by TFR or TFH cells. The invention also provides novel methods for identifying TFR and TFH cells in a population of cells. The invention also provides compositions comprising TFR cells that have enhanced suppressive activity as compared wild type TFR cells. The invention also provides compositions comprising T follicular regulatory (TFR) cells isolated from the peripheral blood of a subject wherein the composition is enriched for TFR cells. Methods of making and using the compositions of the invention to modulate an immune response are also provided.

The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells.

The invention provides compositions and methods for suppressing autoimmune components of neurodegenerative diseases and thereby providing therapeutic effects to patients suffering from such diseases. Compositions and methods include immunosuppressive moieties such as regulatory T cells (Tregs) and proteins expressed by Tregs coupled to a chimeric antigen receptor or protein that specifically binds one or more glial cell markers. Therapeutically effective doses of said compounds for treating neurodegenerative diseases including progressive supranuclear palsy (PSP), Parkinson's disease (PD), Alzheimer's, Huntington's disease, amyotrophic lateral sclerosis (ALS), chronic traumatic encephalopathy (CTE), and prion diseases are disclosed.