Preclinical Analyses Support Clinical Investigation of Combined Anti-CD19 CAR-T Cell, JCAR017 with Ibrutinib for the Treatment of Chronic Lymphocytic Leukemia

Autor: Ruth Salmon, Sherri Mudri, Jim Qin, Michael Ports, Alex Baturevych
Rok vydání: 2016
Předmět:
Zdroj: Blood. 128:3231-3231
ISSN: 1528-0020
0006-4971
DOI: 10.1182/blood.v128.22.3231.3231
Popis: Chronic lymphocytic leukemia (CLL) drives systemic immune suppression and T cell dysfunction in patients, highlighting an important consideration in this setting for the manufacturing and efficacy of adoptive cell therapies using autologous T cells. In clinical studies, anti-CD19 CAR-T cells produce durable and complete responses in leukemic and some lymphomatous B cell malignancies. While preconditioning with cyclophosphamide (Cy) and fludarabine (Flu) has improved CAR-T responses in CLL patients, reported complete response rates still have been below 50%; additional therapeutic strategies likely will be required. Ibrutinib, an irreversible inhibitor of BTK, has been approved as a frontline treatment option for patients with CLL. The potent off-BTK activity of ibrutinib on ITK and TEC family kinases could affect CAR T cell biology. Recent work highlighted the ability of ibrutinib to restore CLL patient T cell functionality, enhance CAR-T production and potentially improve clinical efficacy. Additional preclinical work demonstrated improved tumor clearance when anti-CD19 CAR T cells were combined with ibrutinib in several murine tumor models. A preclinical evaluation of the combination between the anti-CD19 CAR-T product, JCAR017, and ibrutinib was performed to determine feasibility for clinical use in CLL. JCAR017 is a second generation CAR-T cell product candidate that contains a 41BB costimulatory endo-domain and is currently in phase 1 trials for non-Hodgkin lymphoma (NHL). A series of in vitro studies assessed the functional activity of JCAR017 cells (derived from 3 healthy donors), in combination with ibrutinib (500-0.05nM), across a dose range covering the cMax and cMin. Cytolytic activity was monitored by co-culturing CAR-T cells with ibrutinib-resistant K562 CD19 tumor cells at an effector-to-target ratio of 2.5:1. Ibrutinib, at concentrations tested, did not inhibit the cytolytic function of JCAR017 cells. For cells derived from some donors, addition of ibrutinib appeared to increase % target killing. To address ibrutinib effects on JCAR017 activation, cell surface markers and cytokines were tracked over 4 days following stimulation with irradiated K562 CD19 cells. We observed no significant effect on JCAR017 surface expression of CD25, CD38, CD39, CD95, CD62L, CCR7, or CD45RO, or of EGFRt, a surrogate transduction marker. With addition of ibrutinib, we observed a modest decrease in the percentage of cells expressing CD69, CD107a and PD-1. With 5 and 50nM of ibrutinib, there was a 19.5% (p We assessed the in vivo anti-tumor activity of JCAR017 in combination with ibrutinib using NSG mice injected with 5x105 Nalm6-luciferase cells. After tumor engraftment, a suboptimal dose (5x105) of JCAR017 cells was transferred to mice and ibrutinib (25 mg/kg qd) was administered for the duration of the study. Ibrutinib treatment alone had no effect on tumor burden compared to vehicle treatment. Mice treated with a suboptimal JCAR017 dose + ibrutinib showed decreased tumor burden (p80 days (p Taken together, the results suggest that ibrutinib enhances intrinsic JCAR017 activity and may improve outcomes in CLL patients treated with anti-CD19 CAR T therapy, irrespective of BTK mutational status. A Phase 1b study of JCAR017 in combination with ibrutinib for BTKi R/R CLL is planned. Disclosures Qin: Juno Therapeutics: Employment. Baturevych:Juno Therapeutics: Employment. Mudri:Juno Therapeutics: Employment, Equity Ownership. Salmon:Juno Therapeutics: Employment. Ports:Juno Therapeutics: Employment.
Databáze: OpenAIRE