Disclosed herein are precursory regulatory cytotrophoblast cells produced in vitro and compositions thereof. Disclosed herein are isolated populations of precursory regulatory cytotrophoblast cells, where the cells are produced in vitro. Disclosed herein are genetically engineered cells. Also disclosed herein are methods of treating a disorder or condition by utilizing the cells disclosed herein.

Cell therapy compositions comprising engineered human regulatory T cells (eTregs) characterized by ectopic overexpression of FOXP3 and Helios protein, produced via introduction of separate nucleic acid constructs respectively encoding FOXP3 and Helios (FOXP3+ Helios+ eTregs). Cell therapy compositions comprising mixed populations of CD4+ and CD8+ Treg cells each with ectopic overexpression of FOXP3 and Helios. Methods of making and use the same for therapies involving inflammation and/or a disorder of the immune system.

The invention provides immunomodulatory pharmaceutical compositions that include a synthetic peptide and transforming growth factor beta, (TGF-β).

Isolated cells are described that are not embryonic stem cells, not embryonic germ cells, and not germ cells. The cells can differentiate into at least one cell type of each of at least two of the endodermal, ectodermal, and mesodermal lineages. The cells do not provoke a harmful immune response. The cells can modulate immune responses. As an example, the cells can suppress an immune response in a host engendered by allogeneic cells, tissues, and organs. Methods are described for using the cells, by themselves or adjunctively, to treat subjects. For instance, the cells can be used adjunctively for immunosuppression in transplant therapy. Methods for obtaining the cells and compositions for using them also are described.

The presently described technology relates to the modulation of specific immune responses to create a protective immunity in the treatment of autoimmune diseases and diseases requiring the transplantation of tissue. In particular, the present technology relates to the suppression of immune responses in a targeted fashion, by increasing the functional concentration of the CEACAM1 protein in a target tissue to create a localized protective immunity for the treatment of autoimmune diseases and diseases requiring the transplantation of tissue.

The present invention relates to a method for prevention and/or treatment of an autoimmune disease, comprising administering a composition, said composition comprising at least one beta cell autoantigen, to a subject The subject may have a serum vitamin-D level above 50 nanomole/liter or the composition may be administered by intralymphatic injection or injection directly into a lymph node, or over a period of weeks, months, or years. The invention also relates to a composition comprising a plurality of particles, each having immobilised on its surface at least one first and at least one second antigen, wherein the first antigen is a beta cell autoantigen, and the second antigen is either a tolerogen or a beta cell autoantigen, and to composition comprising i) at least one beta cell autoantigen, and at least one of iia) an IL-10 inducing compound selected from the group consisting of vitamin-D, vitamin-D analogs, tyrosine kinase inhibitors, gamma-amino butyric acid, and gamma-amino butyric acid analogs; and iib) a compound that reduces the dendritic cells' ability to activate naïve CD4+ T cells, such as a cyclooxygenase inhibitor, a CTLA-4 compound or a TNF alpha inhibitor. The invention also relates to pharmaceutical kits and to medical use of beta cell autoantigens.

The invention provides methods for the ex-vivo expansion of CD4+CD25+ Tregs. The invention provides a method for producing ex vivo expanded Tregs that may be used to inhibit unwanted human immune responses against self-antigens or allergens. Additionally, the ex vivo expanded Tregs may provide treatment for inflammatory/autoimmune diseases.

The invention discloses an immunomodulatory composition comprising non-culturable bacteria, a method of production and an article and an apparatus for its use and administration.

The invention describes kit of parts of polypeptides comprising: a) a peptide comprising: a1) an MHC class II T cell epitope or a CD1 d-restricted NKT cell epitope, and a2) immediately adjacent to said epitope or separated by at most 7 amino acids from said epitope a [CST]-X(2)-C [SEQ ID NO:7] or C-X(2)-[CST] [SEQ ID NO:8] oxidoreductase motif sequence, and b) a polypeptide comprising: b1) a therapeutic protein and b2) the epitope defined in a1), wherein the epitope sequence is a sequence which differs from the sequence of the protein of b1). The therapeutic protein, in combination with the peptide, is used to prevent an immune response against the therapeutic protein.

Compositions and methods of using ILC2 to reduce microglial activation or to reduce blood-brain barrier (BBB) permeability are described. Also described are methods and compositions that use an agent that increases the number of activated ILC2 to reduce microglial activation or BBB permeability.