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 present disclosure provides methods and compositions for enhancing the immune response toward cancers and pathogens. It relates to chimeric antigen receptors (CARs) comprising a mutated CD28 intracellular motif, and cells comprising such CARs. The presently disclosed subject matter further relates to the use of said cells for treating diseases, e.g., for treating cancers.

Methods of culturing T cells are provided. Accordingly there is provided a method of culturing T cells comprising adding to immune cells comprising T cells obtained from a subject having a pathology a non-cellular agent capable of binding 4-1BB and activating said 4-1BB signaling pathway; and culturing the immune cells with said agent for more than 7 days. Also provided are T cells obtainable by the method and uses thereof.

The present disclosure generally relates to therapies involving immune effector cells such as T cells engineered to express antigen receptors such as T cell receptors (TCRs) or chimeric antigen receptors (CARs). It is demonstrated herein that such antigen receptor-engineered immune effector cells may be generated in vitro/ex vivo as well as in vitro by delivering nucleic acid encoding an antigen receptor for genetic modification to cells using particles comprising the nucleic acid and a targeting molecule for targeting the immune effector cells, wherein the targeting molecule is a designed ankyrin repeat protein (DARPin). In particular, DARPins are described herein which are high-affinity binders for CDS binding to the CDS receptor on human and non-human primate (NHP) cells. Nanoparticles functionalized with CD8− targeting DARPins (CDS-DARPin) can deliver genes exclusively and specifically to human CD8.sup.+ T cells in vitro and in vivo.

The invention relates to an immune cell that is capable of antibody-dependent cellular cytotoxicity and which comprises a nucleic acid sequence encoding a secreted antigen binding protein. The invention also concerns a method of producing the immune cell and medical uses for the immune cell.

The invention relates to mesodermal killer (MK) cells and their use in therapy, especially for the treatment of cancer.

Disclosed are improved methods for manufacturing large-scale populations of robust, highly pure, and functional T regulatory cells (Tregs). Also disclosed are expanded Treg populations, cryopreserved Treg populations and methods and uses of these cells in compositions formulated for treating one or more mammalian diseases, including, for example, treatment, prophylaxis, and/or amelioration of one or more symptoms of a human neurodegenerative disorder. In particular, the compositions and methods provided herein find clinical use in the treatment and amelioration of one or more symptoms of amyotrophic lateral sclerosis (ALS), Alzheimer's disease, and other neurological diseases and disorders.

The present invention discloses an in-vitro culture, induction, activation and cryopreservation method and cell bank establishment for immune cells. The method includes the follows: using a dedicated amplification medium of immune cells to perform first-stage amplification culture on mononuclear cells to obtain preliminarily amplified immune cells; using a dedicated induction medium of immune cells to perform second-stage induction and amplification culture on the preliminarily amplified immune cells to obtain induced immune cells; using a dedicated activation medium of immune cells to perform third-stage activation and amplification culture on the induced immune cells to obtain a large number of immune cells with activation functions; using a dedicated cryopreserving fluid of immune cells to cryopreserve the immune cells to obtain cryopreserved immune cells; and performing preservation according to ABO/RH typing and HLA typing; and establishing an information file of immune cells for retrieval to construct an immune cell bank.

Methods of culturing T cells with a 4-1BBL fusion polypeptide are provided. Accordingly there is provided a method of culturing T cells comprising adding to immune cells comprising T cells obtained from a subject having a pathology a PD1-4-1BBL or a SIRPalpha-4-1BBL fusion polypeptide; and culturing the immune cells with the fusion polypeptide for more than 7 days. Also provided are T cells obtainable by the method and uses thereof.

Methods of expanding T cells ex vivo comprising contacting the T cells with antibody molecules that bind to TCR Vβ regions are described. T cells comprise one or more nucleic acid molecule encoding an exogenous cellular receptor, for example, a chimeric antigen receptor (CAR) or an exogenous T cell receptor (TCR).