Cell culture media, preservative media or cryopreservation media include a low dose of one or more cytokines, e.g. interleukin-2 (IL-2).

This document provides methods and materials for expanding antigen-specific T cells (e.g., antigen-specific CD4.sup.+ T cells and/or antigen-specific CD8.sup.+ T cells) in culture. For example, methods and materials for performing a polyclonal stimulation step for a particular duration (e.g., from about 1 hour to about 48 hours) to increase the expansion of T cells having a desired antigen specificity are provided.

The current disclosure relates to methods for treating ovarian cancer based on specific antigen expression of the cancer. Furthermore, the expressed antigen may be used in immunotherapeutic methods for treatment of the ovarian cancer. Aspects of the disclosure relate to immunotherapies targeting CT45 polypeptides, methods for treating ovarian cancer based on CT45 expression, and kits for detecting CT45 polypeptides and nucleotides.

Cell-based compositions and methods for targeting and treating human diseases, including cancers and infectious diseases, are provided, wherein exogenous intracellular sarcosine is used for improved delivery of the composition.

Disclosed herein are three-dimensional bone tissue grafts produced from stacked demineralized bone paper. Also disclosed are methods for treating a subject using tissue grafts produced from the disclosed demineralized bone paper. Also disclosed are assay systems that involves culturing bone-promoting cells on the disclosed demineralized bone paper.

The present disclosure provides populations of cells comprising partially mature and optimally activated dendritic cells that can be used for administration to individuals having a cancer and/or tumor. Partially matured dendritic cells, those contacted with a dendritic cell maturation agent for about 10 to about 19 hours, upon administration efficiently take up and process tumor antigens in the area of the tumor site, complete maturation, and can subsequently migrate to the lymph nodes of a treated individual. Once in a lymph node the now fully mature antigen presenting dendritic cells secrete the appropriate cytokines (e.g., TNFα, IL-6, IL-8, and/or IL-12) and contact T cells inducing a substantial and optimal clinical and/or anti-tumor immune response.

The present invention relates to novel immunoregulatory macrophage cells which are useful in the treatment of different immunological and non-immunological diseases and conditions. The cells are characterized by a specific marker and activity pattern which distinguishes them from other cells. The invention also provides a process for preparing the immunoregulatory macrophage cells from blood monocytes. In a still further aspect, the invention relates to a pharmaceutical composition comprising the immunoregulatory macrophage cells of the invention or a sub-cellular fraction thereof. A process for preparing a sub-cellular fraction of an immunoregulatory macrophage cell of the invention is also provided.

A methodology to obtain large numbers of allospecific human Tr1 lymphocytes in vitro differentiated with phenotype and suppressive function stability in presence of proinflammatory cytokines, by using donor tolerogenic dendritic cells (DC10) derived from donor monocytes and from a not related receptor (allogeneic) naîve T cells cocultures. The obtained cells with the present methodology are characterized by the expression of a Tr1 regulatory phenotype (CD4+, CD49b+, LAG-3+), being high IL-10 producers, and also they express additional co-inhibitory molecules as PD1, TIM-3, CD39, CTLA-4 y TIGIT. Moreover, the cellular product obtained by this methodology is able to maintain a stable phenotype and suppressive function in presence of proinflammatory cytokines (IL-1β, IL-6, IFN-γ y TNF-α). The numbers, purity, and stability of the Tr1 obtained by this methodology, make them great candidates for their use as therapeutic tools in transplantation.

The present disclosure provides rAAV vectors and rAAV virions that specifically express exogenous nucleic acid sequences in CD14.sup.+ cells. The rAAV vectors or virions are useful for specifically expressing exogenous nucleic acid sequences encoding, for example, cancer antigens, viral antigens, and/or bacterial antigens in monocytes and dendritic cells. The rAAV transduced CD14.sup.+ cells can be used as antigen presenting cells that induce antigen-specific T cell responses. The present disclosure further provides methods producing rAAV virions and methods of immunotherapy.

The present invention relates to a method for ex vivo generating and expanding γδ Foxp3.sup.+ regulatory T cells, and therapeutic uses thereof. The inventors performed the induction of Foxp3+ expression in ex vivo human induced tumor-antigen specific CD4− TCRγδ unrestricted T cells and the induction of autologous CD8-mediated T-cell responses against tumor-antigen specific FOXP3 expressing CD4+ TCRγδ unrestricted T cells. The inventors developed a method to ex vivo generated and expanded antigen specific Foxp3 expressing CD3+ TCRγδ+ unrestricted T cells, committed to exclusively exert regulatory activity, whichever culture condition of stimulation is. In particular, the present invention relates to a method for generating ex vivo γδ Foxp3+ regulatory T cells having the following phenotype: CD3+ TCRγδ+ Foxp3+.