The present disclosure provides soluble mutant PD-L1 peptides, polynucleotides and vectors encoding the peptides, and methods of using the peptides to elicit differentiation of regulatory T cells.

The invention provides methods of differentiating primate pluripotent stem cells into cells of hematopoietic lineage. The invention further provides hematopoietic lineage cells differentiated from primate pluripotent stem cells, as well as methods of using the same and kits comprising the same.

The present disclosure relates to methods of inducing tolerance to lung allograft transplantation. These methods comprise increasing suppressor CD8.sup.+ T cells and/or suppressing deleterious CD8+ and CD4.sup.+ T cells.

The present invention relates to a mammalian cell comprising a gene encoding a polypeptide of interest, wherein the polypeptide of interest is expressed comprising one or more posttranslational modification patterns. These modifications are useful for example in glycoprotein production where the antibodies with the modifications have an enhanced antibody-dependent cell-mediated cytotoxicity (ADCC). The present invention also relates to methods for producing the glycoproteins and compositions comprising the glycoproteins, and their uses.

FOXP3.sup.+ regulatory T cells (Tregs) can represent powerful adoptive immunotherapies for autoimmune diseases, metabolic diseases, and other chronic inflammatory diseases. The present invention is related to the ability to maintain and expand stable Treg lines and can provide insight into FOXP3.sup.+ Treg physiology and can enable feasible strategies of Treg-based immunotherapy.

Provided is a cell culture substrate for trait induction control of a macrophage, which has a pattern of unevenness on a surface to which a cell adheres, the width of the unevenness being 50 nm or more and less than 1,000 nm.

A trait induction method of undifferentiated cells is provided, including: culturing undifferentiated cells on abase material which has an uneven pattern on the surface to which the cells adhere and of which the width of the unevenness is 1 nm to 1,000 nm.

The present invention provides improved and/or shortened methods for expanding TILs and producing therapeutic populations of TILs, including novel methods for expanding TIL populations in a closed system that lead to improved efficacy, improved phenotype, and increased metabolic health of the TILs in a shorter time period, while allowing for reduced microbial contamination as well as decreased costs. Such TILs find use in therapeutic treatment regimens.

The invention is in the field of cell biology and immunology. The invention provides methods for the production of a vaccine for cancer and infectious diseases. More in particular it provides a method for the improved production of mature dendritic cells. This improved production includes the use of a bacterial lysate produced by a new method.

The present invention provides improved and/or shortened methods for expanding TILs and producing therapeutic populations of TILs, including novel methods for expanding TIL populations in a closed system that lead to improved efficacy, improved phenotype, and increased metabolic health of the TILs in a shorter time period, while allowing for reduced microbial contamination as well as decreased costs. Such TILs find use in therapeutic treatment regimens.