Abstract: 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.

Abstract: Adoptive cell therapy involves the transfer of autologous or allogeneic cells to patients in an effort to treat a variety of diseases. In the area of immunotherapy, tumour specific T-cells can be grown ex vivo, or engrafted with tumour specificity via genetic engineering approaches, prior to reinfusion. T-cell infusions require a pre-conditioning treatment, and often a post infusion treatment of IL-2, in an effort to enhance persistence and engraftment. Herein Applicants show that T-cells can be engineered to express a Chimeric recombinant Growth Factor Receptor (CrGFR) which allows the selective survival and/or expansion of T-cells upon administration of a clinically available drug, Eltrombopag.

Abstract: The present invention concerns a biomarker useful in adoptive cell therapy. The biomarker in question is CDI50, otherwise termed SLAM or SLAMF1. Herein Applicants demonstrate that expression of CD 150 on tumour infiltrating lymphocytes infusion products correlates with the response rate seen in those patients. High CDI50 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 CD 150 in an effort to increase efficacy.

Abstract: The present invention concerns a single use aseptic kit comprising: a disaggregation module for receipt and processing of material comprising solid mammalian tissue; and a stabilisation module for storing disaggregated product material, wherein each of the modules comprises one or more flexible containers connected by one or more conduits adapted to enable flow of the tissue material there between; and wherein each of the modules comprises one or more ports to permit aseptic input of media and/or reagents into the one or more flexible containers. The invention further relates to an automated device for semi-automated aseptic disaggregation and/or enrichment and/or stabilisation of cells or cell aggregates from mammalian solid tissue comprising a programmable processor and the single use aseptic kit. The invention further relates to a semi-automatic aseptic tissue processing method.