Methods of treating a subject with cancer with CD8 T cell-mediated immune therapy are provided. The methods include measuring an amount of CXCR3-positive T cells in a peripheral blood sample or a tumor sample from a subject with cancer following treatment of the subject with at least one dose of the CD8 T cell-mediated therapy and comparing the amount of CXCR3-positive T cells in the sample to a control. Responsiveness of the cancer to the CD8 T cell-mediated therapy is predicted based on whether there is an increase or decrease in the amount of CXCR3-positive T cells in the sample. Methods further including treating the subject with at least one additional dose of the CD8 T cell-mediated immune therapy are also provided.

Provided herein are methods for preparing, producing, processing, culturing, isolating, or making cells suitable for immune or cell therapy, and for their use in cell therapy.

The present disclosure provides compositions and methods for identifying target-reactive T-cell receptors (TCRs). The identification may be based on comparing the frequency of a TCR before and after a marker-based selection. The identification may also be based on comparing the frequency of a TCR in a pool of cells stimulated by mutant and wildtype antigens.

Antibodies that bind ICOS (Inducible T cell Co-Stimulator). Therapeutic use of anti-ICOS antibodies for modulating the ratio between regulatory T cells and effector T cells, to stimulate the immune system of patients, including use in treating cancers. Methods of producing anti-ICOS antibodies, including species cross-reactive antibodies, using transgenic knock-out mice.

The present invention concerns a biomarker useful in adoptive cell therapy. The biomarker in question is CD150, otherwise termed SLAM or SLAMF1. Herein Applicants demonstrate that expression of CD150 on tumour infiltrating lymphocytes infusion products correlates with the response rate seen in those patients. High CD150 expression is found on patients who go on to have a complete response and low expression on patients who do not respond to therapy. The invention relates to the use of the biomarker to predict response rate or stratify patients for treatment. It also covers exploitation of this receptor in adoptive cell therapy regimens in general, including but not limited to over expression of the receptor in T-cell populations or isolation of cells expressing CD150 in an effort to increase efficacy.

The present invention relates to artificial Antigen Presenting Cells (aAPCs) comprising artificial Antigen Presenting Molecules (aAPMs) and, in particular, comprising dimers of the aAPMs as well as to methods for producing aAPCs. The invention further relates to compositions comprising the aAPCs and to vectors encoding the aAPMs of the aAPCs. Embodiments of the invention have been particularly developed for use in assays for determining an antigen-specific T cell response or a plurality of antigen-specific T cell responses and will be described hereinafter with reference to this application. However, it will be appreciated that the invention is not limited to this particular field of use.

Provided herein are methods and compositions for assaying vaccinia virus-specific T cell responses in a sample from a subject undergoing treatment with an oncolytic vaccinia virus. The compositions comprise custom peptide pools from known immunogenic vaccinia virus epitopes in an HLA-agnostic format to profile peripheral CD8+T cell responses.

The present invention provides a composition comprising dendritic cells loaded with hHsp60sp, which dendritic cells are from a subject and have been fixed with paraformaldehyde (PFA). The subject may suffer from an autoimmune disease. Also provided are a method for preparing the composition; recombinant human cells comprising a heterologous gene encoding a fusion protein of HLA-E and hHsp60sp or B7sp, and expressing the fusion protein on the surface of the cells; a method for determining a percentage of maximum inhibition of testing the function of the HLA-E restricted CD8+ Treg cells from a subject, determining whether HLA-E restricted CD8+ Treg cells freshly isolated from a subject are defective, or determining whether defective HLA-E restricted CD8+ Treg cells from a subject are correctable; and a method for correcting defective HLA-E restricted CD8+ Treg cells, treating type 1 diabetes (T1D), or treating multiple sclerosis (MS).

The present invention provides a cell-based assay for measuring T cell activation mediated by a T cell-dependent bispecific antibody (TDB). In some aspects, the assay is useful for detecting a TDB in a composition, quantitating the amount of TDB in a composition, determining the potency and/or specificity of a TDB, or determining if a population of cells expresses a target antigen. Compositions and kits are also contemplated.

Flow cytometry is used for diagnosis of infectious diseases by an analysis of cell mediated immune responses to specific infective agent antigens. Apparatus and methods of advanced flow cytometry are utilized to detect cell mediated immune responses to the presence of specific antigens from infective agents, such as bacteria, protozoa, viruses, helminth, prions. In some embodiments, methods as provided herein can be utilized in vitro to diagnose multiple infections within individuals.