ALBERT

Description: Introduction CD19 CAR-T cell products were recently approved as therapy for B-lineage malignancies. We initiated an IIT trial where manufacture of CAR-T cells was performed locally using a unique CD19 CAR with potent anti-leukemic effects. Patients and methods A total of 37 pts with relapsed/refractory B-acute lymphoblastic leukemia (12 female, 25 male, median age 10 y) were screened, 27 pts were enrolled for a trial, 10 were eligible for compassionate use of CD19 CAR-T cell therapy. Sixteen patients had relapsed B-ALL after haploidentical HSCT, 19 pts refractory relapse, 2 induction failure, 13 patients had previous blinatumomab infusion. Eighteen patients had 〉20% blast cells, median bone marrow leukemia burden for patients with full blown disease was 89%, 19 pts had minimal residual disease (MRD) 〉0.1% in BM, 3 had skeletal involvement with multiple mass lesions, one had CNS involvement. The CliniMACS Prodigy T cell transduction (TCT) process was used to produce CD19 CAR-T cells. The automated production included CD4/CD8 selection, CD3/CD28 stimulation with MACS GMP T Cell TransAct and transduced with lentiviral vector expressing the CD19CAR gene (second generation CD19.4-1BB zeta with alternate transmembrane domain derived from the TNF superfamily) (Lentigen, Miltenyi Biotec company). T cells were expansion over 10 days in the presence of serum-free TexMACS GMP Medium supplemented with MACS GMP IL-7 and IL-15. Final product was administered without cryopreservation to the patients after fludarabine/cyclophosphamide preconditioning. All patients received prophylactic tocilizumab at 8mg/kg before CAR-T cell infusion. Patients did not receive HSCT as consolidation after CAR-T therapy. Results Thirty-five manufacturing cycles were successful. Median transduction efficacy was 60% (20-80). Median expansion of T cells was x 46 (18-51). CD4:CD8 ratio in the final product was 0.73. The cell products were administered at a dose of 3*106/kg of CAR-T cells in 4 pts, 1*106/kg in 9 pts, 0.5*106/kg in 14 pts, 0.1*106/kg in 8 pts. Two patients received 0.1*106/kg of CAR-T cells produced from haploidentical donors. The cytokine release syndrome (CRS) occurred in 22 (59%) pts and was mostly mild and moderate: grade I - 15 pts, grade II- 4 pts, grade III - 2 pt, grade IV - 1 pt. CAR-T cell related encephalopathy occurred in 15 (40%). Grade I-II neurotoxicity developed in 10 pts, grade III - in 2 pt, grade IV - 1 pt, grade V - 2 pt. In one patient with grade V neurotoxicity concomitant K. pneumonia encephalitis was documented. Severe (grade 3-5) CRS and neurotoxicity were associated exclusively with large leukemia burden (〉20% in the bone marrow) at enrollment, p=0,002. Thirty-one patient was evaluable for response at day 28. Four pts had persistent leukemia. In 27 (87%) cases Flow MRD-negative remission was achieved. Disease relapse after initial response was registered in 9 (33%) cases (7 patients had CD19 negative, 2 had CD19 positive relapse). At the moment of reporting, 10 patients have died (3 due to sepsis, 1 due to brain edema, 1 due to brain edema and K. pneumonia encephalitis, 5 due to progression of disease or relapse). Twenty-seven pts are alive, 19 in complete remission with a median follow up of 223 days (41-516 days). Conclusion CliniMACS Prodigy TCT process is a robust CAR-T cell manufacturing platform that enables rapid and flexible provision of CAR-T cells to patients in need. Significant toxicity of CD19 CAR-T cells was associated exclusively with high leukemia burden at enrollment. In the absence of HSCT consolidation relapse rate exceeds 30%. Disclosures Schneider: Lentigen Technology, A Miltenyi Biotec Company: Employment. Preussner:Miltenyi Biotec: Employment. Rauser:Miltenyi Biotec: Employment. Orentas:Lentigen Technology Inc., a Miltenyi Biotec Company: . Dropulic:Lentigen Technology, A Miltenyi Biotec Company: Employment. Maschan:Miltenyi Biotec: Other: lecture fee.

Description: Introduction Adoptive transfer of virus-specific T cells is an encouraging strategy to manage severe and fatal infections in immunocompromised patients. To generalize this approach, a cGMP- compliant enrichment process of both CD4+ and CD8+ viral-specific T cells is necessary. Here, we used a newly established automated manufacturing process for rapid and efficient ex vivo selection of multi-virus-specific CD4+ and CD8+ T cells. We show how the isolated virus-specific T cells retain their original effector/memory status and their effector functions. Method Leukapheresis from healthy donors were used as starting material. Multi-virus or cytomegalovirus pp65 peptide-specific T cell products were generated in a novel closed cell-processing device with a fully automated manufacturing procedure. During this process white blood cells were stimulated with either a combination of peptide pools covering cytomegalovirus pp65, Epstein-Barr-Virus EBNA-1, BZLF1, and LMP2, and adenovirus hexon protein (n=6) or with a single pp65 peptide for four hours (n=4). Subsequently, virus-specific CD4+ and CD8+ T cells were magnetically enriched using the IFN-g secretion assay technology. In parallel, the reversible MHC/peptide multimer technology, which is restricted to CD8+ peptide-specific T cell enrichment, was used for comparison in a manual magnetic selection procedure for pp65 peptide-specific CD8+ T cells (n=4). All virus-specific T cell products were rested in vitro in the presence of T-cell-depleted PBMCs without addition of cytokines or antigens for up to 4 days. Expression of CD45RA, CCR7, CD28, CD69, CD137 as well as IFN-g production with and without cognate antigen(s)-restimulation were analyzed by flow cytometry before and up to 4 days after the selection process. Results Manufacturing of multi-virus and pp65 peptide-specific T cells using the IFN-g secretion assay technology requires a short period of antigen stimulation and IFN-g expression, therefore, up to 96% of T cells produced IFN-g in the enriched fraction. However, after a few days resting phase in culture, IFN-g production decreased drastically. In addition, we detected an upregulation of CD69 and CD137 in the IFN-g enriched T cell products directly and 24 hours after the selection process, respectively. The transient nature of activation could again be confirmed, as both, CD69 and CD137 were downregulated during the resting phase. Results were compared to pp65-peptide specific CD8+ T cell products generated by the MHC/peptide multimer technology, which does not require an antigen incubation step. Activation was also seen for these enriched T cells, even when the MHC/peptide complexes were released, while unprocessed and cultured PBMC did not show IFN-g secretion or activation marker expression; indicating that cell processing and not the culture conditions triggered the activation. To test the functionality of the generated T cell products, we re-incubated three days resting cells with the corresponding antigens. In all samples, independent of the technology used for selection, induction of IFN-g expression in up to 100% of T cells was observed. Thus, T cells in all the products were able to maintain their in vivo imprinted physiological role, i.e. IFN-g production after antigen contact. Furthermore we examined if cell processing influences the effector/memory status of virus-specific T cells. Because the MHC/peptide multimer technology is restricted to the selection of single peptide-specific CD8+ T cells only, we monitored CD45RA, CD28 and CCR7 expression on pp65-peptide specific CD8+ T cells either identified by IFN-g secretion or by MHC/peptide multimer staining before and directly after the enrichment. The frequency of CD45RA+ and CD28+ cell populations varied between the donors and CCR7 was not detected at all, but importantly the enrichment process did not induce phenotypic changes. This result demonstrates the phenotype is stable during the manufacturing process. Conclusion A newly developed automated manufacturing process for direct ex vivo enrichment of multi-virus-specific CD4+ and CD8+ T cell populations via the IFN-g secretion assay technology provides a product for immunotherapy, where the original phenotypic and functional characteristics of the cells are conserved. Hence this cellular product is expected to fight efficiently against viral infections upon adoptive transfer. Disclosures: Richter: Miltenyi Biotec GmbH: Employment. Preussner:Miltenyi Biotec: Employment. Traska:Miltenyi Biotec: Employment. Peters:Miltenyi Biotec: Employment. Oysal:Miltenyi Biotec: Employment. Ruhnke:Miltenyi Biotec: Employment. Brauns:Miltenyi Biotec: Employment. Kramer:Miltenyi Biotec: Employment. Schmitz:Miltenyi Biotec: Employment. Assenmacher:Miltenyi Biotec: Employment.

Description: Background CD19 redirected chimeric antigen receptor (CAR) T-cell therapy has proven efficacy in relapsed or chemotherapy-refractory (r/r) aggressive B-cell non-Hodgkin lymphoma (B-NHL). However, targeting a single B-cell antigen leads to selective pressure with potential antigen-escape and subsequent relapse. A tandem CAR targeting CD20 and CD19 (pLTG1497) has been developed to overcome this limitation. Preclinical evaluation showed improved anti-lymphoma activity. Thus, we initiated a first-in-human, phase I clinical study of autologous pLTG1497-transduced CAR T-cells (MB-CART2019.1) in r/r B-NHL patients. Aims In this phase I prospective multi-center trial (NCT03870945) we aimed to evaluate the maximum tolerated dose (MTD) of MB-CART2019.1 in adult patients with CD20 and CD19 positive r/r B-NHL as determined by dose limiting toxicities (DLTs). Methods This was a 6+3 trial design with two predefined dose levels (DL1 1x106 and DL2 2.5x106 CAR T-cells/kg body weight, respectively). Secondary endpoints included adverse events (AEs) and best overall response rate (ORR). Pharmacodynamic assessments included maximum concentration (Cmax) of CAR T-cells, time to peak expansion (tmax), AUC (d0 to d28), and persistence. MB-CART2019.1 was produced by lentiviral transduction of autologous fresh leukapheresis in the closed automated CliniMACS Prodigy® System (Miltenyi Biotec, Bergisch Gladbach, Germany). Re-infusion (Day 0) of fresh MB-CART2019.1 was scheduled 14 days after leukapheresis. Fludarabine/cyclophosphamide lymphodepleting chemotherapy was administered from day -5 to -3. Results A total of 12 patients, 6 per dose level have been enrolled and treated between February and December 2019, 5 female and 7 male patients. Median age was 72 y (range 20, 78 y), with 10 patients 〉65 y and 8 〉70 y. Histologies included aggressive B-NHL (11) and mantle cell lymphoma (1). Five (5) patients had refractory disease at study entry and IPI was ≥3 in 7 patients. Median time from leukapheresis to re-infusion was 14 d (range 13, 14 d). No DLT and no cytokine release syndrome (CRS) or neurotoxicity grade ≥3 were observed. One patient in dose level 1 experienced a grade 5 AE, which was due to disease progression. CRS grade 1 occurred in 3/6 patients on DL1 and DL2 each, and CRS grade 2 in 2 patients on DL2. Tocilizumab was given in 1 patient. Neurotoxicity grade 1 occurred in 1 patient on DL2. The above described CRS and neurotoxicity resolved completely. Mean Cmax of MB-CART2019.1 was 348.3 cells/µl (range 3.9, 830.4 cells/µl) on DL1 and 692 cells/µl (range 5.3, 3147.8 cells/µl) on DL2. Mean tmax was 15.8 d (range 9, 21 d) on DL1 and 11.5 d (range 9, 14 d) on DL2. Mean AUC was 3155 d*cells/µl (DL1) and 4339 d*cells/µl (DL2). Persistence of MB-CART2019.1 was observed in 12/12 patients until data cut-off. Altogether 9/12 patients (ORR 75%) responded to MB-CART2019.1 with 5/12 CRs. In DL1 3/6 patients responded (ORR 50%) and in DL2 6/6 patients (ORR 100%). The 3 patients without response to MB-CART2019.1 had a mean AUC0-28 of 870 d*cells/µl, whereas mean AUC0-28 in 9 responders was 4843 d*cells/µl reflecting the correlation between the pharmacodynamic parameters and the clinical response. Responses are ongoing in 5/9 patients, with a maximum duration of response of 330 days at data cut-off. Summary/Conclusions In this first-in-human dose finding study of MB-CART2019.1 no DLT and no severe (grade ≥3) CRS or neurotoxicity were observed. Feasibility and safety were very good in this cohort of elderly r/r B-NHL patients. The sustained expansion of tandem CAR T-cells was accompanied by efficacy: all patients (6/6) treated on DL2 responded and all 5 patients with CR (5/5) are in ongoing remission by the time of this report. Based on the promising risk-to-benefit ratio observed in our study, evaluation of MB-CART2019.1 at a dose of 2.5x106/kg body weight in clinical phase II and phase III trials for patients with relapsed aggressive B-NHL is underway. Disclosures Borchmann: Miltenyi Biotec B.V. & Co. KG: Honoraria. Balke-Want:Miltenyi Biotec B.V. & Co. KG: Honoraria. Ayuk:Celgene: Consultancy, Honoraria; Kite/Gilead: Honoraria; Therakos/Mallinckrodt: Honoraria, Research Funding; Neovii: Research Funding; Novartis: Honoraria. Holtkamp:Miltenyi Biomedicine GmbH: Current Employment. Preussner:Miltenyi Biomedicine GmbH: Ended employment in the past 24 months. Zadoyan:Miltenyi Biomedicine GmbH: Current Employment. Hanssens:Miltenyi Biomedicine GmbH: Current Employment. Kaiser:Miltenyi Biotec B.V. & Co. KG: Current Employment. Jurk:Miltenyi Biotec B.V. & Co. KG: Current Employment. Bürger:Miltenyi Biotec B.V. & Co. KG: Current Employment. Schneider:Lentigen Technology Inc., A Miltenyi Company: Current Employment, Patents & Royalties. Dropulic:Lentigen Technology Inc., A Miltenyi Company: Current Employment. Overstijns:Miltenyi Biomedicine GmbH: Current Employment, Membership on an entity's Board of Directors or advisory committees; Miltenyi Biotec B.V. & Co. KG: Current Employment, Membership on an entity's Board of Directors or advisory committees. Scheid:Novartis: Honoraria, Research Funding; Janssen: Honoraria, Research Funding; BMS: Honoraria; Amgen: Honoraria; Takeda: Honoraria, Research Funding. Holtick:Miltenyi Biotec B.V. & Co. KG: Honoraria. Miltenyi:Miltenyi Biomedicine GmbH: Current Employment, Current equity holder in private company, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties; Lentigen Technology Inc., A Miltenyi Company: Current Employment, Current equity holder in private company, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties; Miltenyi Biotec B.V. & Co. KG: Current Employment, Current equity holder in private company, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties.