Spots Global Cancer Trial Database for Memory-enriched CAR-T Cells Immunotherapy for B Cell Lymphoma

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Trial Identification

Brief Title: Memory-enriched CAR-T Cells Immunotherapy for B Cell Lymphoma

Official Title: A Two-Arm, Single-Center, Open-Label Pilot Study of IL-2 Programmed or IL-7/IL-15 Programmed Anti-CD19:TCRz:CD28 T-cells in Patient With CD19-Positive Lymphoma That is Resistant or Refractory to Chemotherapy

Study ID: NCT02652910

Conditions

Recurrent Adult Diffuse Large Cell Lymphoma

Recurrent Follicular Lymphoma

Recurrent Mantle Cell Lymphoma

Stage III Adult Diffuse Large Cell Lymphoma

Stage III Follicular Lymphoma

Stage III Mantle Cell Lymphoma

Stage IV Adult Diffuse Large Cell Lymphoma

Stage IV Follicular Lymphoma

Stage IV Mantle Cell Lymphoma

Interventions

CD19.CAR-T cells

Study Description

Brief Summary: The goal of this clinical trial is to study how approaches for manufacturing chimeric antigen receptor (CAR)-modified T (CAR-T) cells affect their in vivo persistence and therapeutic efficacy against B lymphoma. Recently, cancer immunotherapy, treatments aiming to arm patients with immunity specifically against cancer cells, has emerged as a promising therapeutic strategy. Among the many emerging immunotherapeutic approaches, clinical trials utilizing CARs against B cell malignancies have demonstrated remarkable potential. CARs combine the variable region of an antibody with T-cell signaling moieties to confer T-cell activation with the targeting specificity of an antibody. Thus, CARs are not MHC-restricted so they are not vulnerable to MHC down regulation by tumors. However, defined by the activation and contraction program of their mother cells, the persistency and function of CAR-T cells are also restricted by the protocol of manufacturing. Previous clinical studies largely utilized interleukin-2 (IL-2) for the ex vivo expansion of CAR-T cells, which preferentially generate CAR-T cells with characteristics of terminally differentiated effector cells. Our preliminary data indicated that two common gamma chain cytokines, IL-7 and IL-15, can help to selectively expand CAR-T cells with various memory phenotypes. CAR-T Cells prepared under this condition resulted in improved therapeutic efficacy in preclinical animal models. This clinical investigation is to test a hypothesis whether IL-7/IL-15-programmed anti-CD19 CAR-T cells persist longer in lymphoma patients after infusion and whether the persistency of CAR-T cells can lead to improved anti-lymphoma efficacy.

Detailed Description: Primary Objectives 1. To determine the safety and feasibility of CD19.CAR-T cells manufactured through IL-7/IL-15-mediated expansion or IL-2-mediated expansion 2. To determine in vivo dynamics and persistency of IL-7/IL-15 programmed CD19.CAR-T cells. 3. To determine the efficacy of IL-7/IL-15 programmed CD19.CAR-T cells in treating patients with CD19-positive lymphoma Secondary Objectives 1. To determine whether the IL-7/IL-15 programmed CD19.CAR-T cells are superior to the IL-2 programmed cells as measured by their in vivo persistence post infusion 2. To determine whether the IL-7/IL-15 programmed CD19.CAR-T cells are superior to the IL-2 programmed cells as measured by their efficacy in lymphoma therapy 3. To assess the dynamics of intratumoral infiltration of CD19.CAR-T cells. 4. To correlate the subsets and differentiation of CD19.CAR-T cells to observed anti-tumor efficacy