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A Feasibility and Safety Study of a New CD19-Directed Fast CAR-T Therapy for Refractory and Relapsed B Cell Acute Lymphoblastic Leukemia

Yang, Junfang ; He, Jiaping ; Zhang, Xian ; [et al.]

American Society of Hematology ; 2019

In: Blood Vol. 134, No. Supplement_1 ( 2019-11-13), p. 825-825

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In: Blood, American Society of Hematology, Vol. 134, No. Supplement_1 ( 2019-11-13), p. 825-825

Abstract: Introduction CD19-targeting chimeric antigen receptor (CAR) T cell therapy has demonstrated high success; however, its therapeutic potential can still be further improved. In addition, the high cost and lengthy process of CAR-T production limit its broad application. We have developed a new platform termed FasT (F) CAR-T with shortened manufacturing time to one day (plus 7 days of additional testing for regulatory requirements). Here we report results from a pre-clinical study of FasT (F) CAR-T (GC007F) and a phase Ⅰ clinical trial to assess the safety and feasibility of treating patients with CD19+ relapsed/refractory B-cell acute lymphoblastic leukemia (B-ALL). Methods In this study, a second generation of CD19-directed CAR-T was manufactured using the FasT CAR-T platform. Peripheral blood (PB) mononuclear cells were obtained by leukapheresis either from healthy donors for the pre-clinical study or from patients undergoing the clinical trial. T cells were separated and used for CAR-T generation. A xenograft mouse model was used to determine the efficacy of GC007F in vivo. Conventional (C) CAR-T derived from the same healthy donor were also made and tested in parallel for comparison. Between Feb. 2019 and July 2019, 10 adolescent and adult patients with CD19+ relapsed/refractory B-ALL were enrolled in a feasibility trial for CD19 FasT CAR-T (www.clinicaltrials.gov, NCT03825718). FasT CAR-T cells for all patients were successfully manufactured. All patients received a conditioning regimen of IV fludarabine (30mg/m2/d) and cyclophosphamide (250mg/m2/d) for 3 days followed by a single infusion of CAR-T cells. Six patients received a low-dose 6.5 (5.86-7.04) x104/kg of FasT CAR-T, 2 received a medium-dose 1 (1-1.16) x105/kg, and 1, a high-dose 1.56x105/kg. The primary end points of the study were to evaluate feasibility and toxicity, and the secondary end points included disease response and engraftment/persistence of infused FasT CAR-T cells. Results This preclinical study has demonstrated several significant improvements of CD19-directed F CAR-T over C CAR-T: 1) 5-30 fold superior expansion capability (p & lt;0.01); 2) more abundant T central memory cells (Tcm) (73.47±2.85% vs 58.03±8.34%, p & lt;0.05) and T memory stem cells (Tscm) (6.42±3.64% vs 0.39±0.13%, p & lt;0.01); 3) less exhaustion with reduced levels of PD-1+ and LAG3+ (3.39±0.49% vs 12.66±1.87%, p & lt;0.01); and 4) more effective in the elimination of B-ALL in a xenograft mouse model (p & lt;0.01, Fig. 1). For the phase Ⅰ clinical trial, the median observation period was 86 days (37-166 days). The median percentage of pre-treatment bone marrow (BM) blasts was 9.05% (0.19-32.5%). On day 15 after CAR-T cell infusion, 10/10 (100%) cases achieved complete remission (CR) or CR with incomplete count recovery (CRi) and 9/10 (90%) had minimal residual disease (MRD)-negative CR. Four of ten patients had a good blood count recovery on day 15. The number further increased to 6/10 on day 30. Patient F15 had rapidly growing disease in that his PB blasts increased from 1% on enrollment to 7% immediately before CAR-T cells infusion, and increased to 77% on day 7 post infusion. Notwithstanding the rapid disease progression, the patient achieved MRD-positive CR on day 15 with residual 0.06% BM blasts. Five of ten patients were bridged into allogeneic hematopoietic stem cell transplantation (allo-HSCT). All 10 patients have remained in CR thus far. After CAR-T infusion, the level of infused CD19 FasT CAR-T cells in PB was analyzed by qPCR and flow cytometry. Superior in vivo proliferation and persistence were detected regardless of the infused CAR-T doses. The median peak level was reached on day 7 (7-10) with 2.1(0.22-5.2) x105 copy/µg PB genomic DNA (Fig. 2) and the median CAR-T expression ratio was 44.5 (13.6-69.5) %. The peaks of IL6, IFNγ, IL10, and CD25 were observed around day 7. Despite the achievement of a very high CR rate, 9/10 had grade 1 cytokine release syndrome (CRS) and only 1 patient experienced grade 3 CRS. None developed neurotoxicity. Conclusion This study has demonstrated that FasT CAR-T cells with superior expansion capability and younger/less exhausted phenotypes can be generated rapidly. This first-in-human clinical study showed that FasT CAR-T is safe and highly effective for treating patients with B-ALL. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2019-121751

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2019

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Anti-CD19/CD22 Dual CAR-T Therapy for Refractory and Relapsed B-Cell Acute Lymphoblastic Leukemia

Yang, Junfang ; Jiang, Pengfei ; Zhang, Xian ; [et al.]

American Society of Hematology ; 2019

In: Blood Vol. 134, No. Supplement_1 ( 2019-11-13), p. 284-284

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In: Blood, American Society of Hematology, Vol. 134, No. Supplement_1 ( 2019-11-13), p. 284-284

Abstract: Introduction Chimeric antigen receptor (CAR) T cell therapy targeting CD19 has demonstrated high success for B-cell acute lymphoblastic leukemia (B-ALL). Despite the initial high complete remission (CR) rate, about half of patients (pts) relapse at 1 year. CD19 antigen loss was observed in a significant number of relapsed patients. CD22 is another leukemic marker that often expressed on the surface of CD19- relapsed B-ALL blasts. We have developed a bispecific CAR construct targeting CD19 and CD22. Here we report results from a phase Ⅰ clinical trial of CD19/CD22 (GC022) dual CAR-T to evaluate the safety and feasibility of treating patients with relapsed/refractory B-ALL. Methods The CD19/CD22 dual CAR-T cells were manufactured in a cGMP facility. Patients' peripheral blood (PB) mononuclear cells were first collected, and CD3+ T cells were separated. The cells were then transfected by lentivirus encoded with CD19 CD22 bispecific scFv sequences. The CAR-T cells produced in this way contained a 4-1BB co-stimulatory signal domain. The CAR-T cells were then cultured for 8-14 days until sufficient cells were harvested for infusion. All pts received conditioning regimen of fludarabine and cyclophosphamide intravenously for 3 consecutive days with doses of 30 mg/m2/day and 250 mg/m2/day, respectively before a single infusion of CAR-T cells. The level of infused CAR-T cell proliferation in PB was analyzed by qPCR and flow cytometry. The primary end points were to evaluate feasibility and toxicity, and the secondary end points included disease response and engraftment/persistence of infused CD19/CD22 dual CAR-T cells. Results From Feb. 2019 to 23 July. 2019, 17 patients (pts) with relapsed/refractory B-ALL including 4 pts who previously treated with CD19 CAR-T cells were enrolled and pts were treated with CD19/CD22 dual CAR-T GC022 (US NIH Clinical#: NCT03825731). Four were adults, 13 pediatrics (age 1-45, Table 1). The median bone marrow (BM) blasts was 19.09 (0.36-87.82) %. Four patients received a low-dose (2.5-5×105/kg) dual CAR-T, 7 received a medium-dose (1-2.5×106/kg) and 5, a high-dose (3-5×106/kg). One patient withdrew immediately before CAR-T infusion due to his personal issue. Anti-leukemic efficacy was evaluated in 11/16 pts (5 pts have not yet reached D15). The 3/4 pts received low dose of GC022 had no response to treatment and 1 had MRD-positive CR. Seven patients who received medium dose achieved 100% CR on D15, highlighting the dose-dependent anti-leukemic activity. Six out of seven pts had MRD negative CR in this medium dose group. Five pts in high dose group have not reached the time for evaluation. No one relapsed with a median observation time of 60 (7-139) days. Cellular kinetic data was analyzed. Median peak of CAR-T copies was 1.09 (0.0022-4.98) x105 copy number/µg PB genomic DNA (Fig.1). The proliferation of medium or high dose groups was significantly better than the low dose group 3.47(0.43-4.98) x105 vs. 0.023(0.0022-0.81) x105(P=0.02) and 2.02(1.89-2.16) x105 vs. 0.023(0.0022-0.81) x105(P=0.004), (Fig.2). The peaks of IL-6, IFN-γ, IL-10, and CD25 were observed around day 7-10. Sixteen out of seventeen pts had grade 0-1 cytokine release syndrome (CRS) and only 1 patient experienced grade 2 CRS. None developed neurotoxicity. Conclusion Our study demonstrates safety and technical feasibility of CD19 and CD22 dual CAR-T in treating patients with CD19+CD22+ relapsed/refractory B-ALL. A low toxicity with dose-dependent high CR rate including pts who previously treated with CD19 CAR-T cells were observed. Longer observation time and more patients are needed to evaluate a beneficial advantage of the CD19/CD22 dual CAR-T over CD19 CAR-T product. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2019-126429

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2019

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Successful 24-Hours Manufacture of Anti-CD19/CD22 Dual Chimeric Antigen Receptor (CAR) T Cell Therapy for B-Cell Acute Lymphoblastic Leukemia (B-ALL)

Yang, Junfang ; Jiang, Pengfei ; Zhang, Xian ; [et al.]

American Society of Hematology ; 2020

In: Blood Vol. 136, No. Supplement 1 ( 2020-11-5), p. 2-3

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In: Blood, American Society of Hematology, Vol. 136, No. Supplement 1 ( 2020-11-5), p. 2-3

Abstract: Introduction Multiple issues arise for a wider application of chimeric antigen receptor (CAR) T cell therapy including manufacturing time and antigen escape. Here we report data on an anti-CD19/CD22 dual CAR-T (GC022F) therapy based on a novel manufacturing platform, from a phase I clinical study (NCT04129099) in treating patients with B-cell acute lymphoblastic leukemia (B-ALL). Methods Peripheral blood (PB) mononuclear cells were obtained by leukapheresis. T-cells were separated and transduced with lentivirus that encodes a CD19/CD22 directed 4-1BB: ζ CAR. GC022F cells were manufactured using a novel FasTCARTM platform which takes 24 hours, while the conventional CD19/CD22 dual CAR-T (GC022C) cells used as parallel control in the preclinical study were manufactured by conventional process which typically takes 9-14 days. The phase I dose escalation study was initiated to explore the safety and efficacy of GC022F in patients with B-ALL. All patients received a conditioning regimen of IV fludarabine (25mg/m2/d) and cyclophosphamide (250mg/m2/d) for 3 days prior to GC022F infusion. Results When compared with the GC022C, GC022F cells showed 1) less exhaustion as indicated by lower percentage of PD-1+LAG3+ cells following co-culturing with tumor cells, 2) younger phenotypes as demonstrated by more abundant T central memory cells (Tcm; CCR7+CD45RA+ or CD45RO+CD62L+), 3) higher expansion fold at in vitro culture, and 4) high anti-leukemia efficacy in mice model (Fig.1). Comparing in vivo efficacy of GC022F with GC022C cells at lower doses, GC022F treatment were more potent and could reduce tumor burden earlier and faster, and led to significantly prolonged overall survival of the experimental animals. From Nov. 2019 to Jun. 2020, 9 children and 1 adult with B-ALL were enrolled and infused with GC022F, 2 in low-dose (6.0×104/kg), 7 in medium dose (1.0-1.5×105/kg), 1 in high-dose (2.25×105/kg). Patients' median observation time was 99 (14-210) days on the day of cut-off. Characteristics of enrolled patients are shown in Table 1. The median age was 10 (3-48) years, and the median bone marrow (BM) blasts were 21.0 (0.1-63.5) % at enrollment. Three patients had prior CD19 CAR-T cell therapy history and one of whom had prior allogeneic hematopoietic stem cell transplantation (allo-HSCT). After infusion, the median peak of circulating CAR-T cell copy number was 2.29 ×105 copies/µg genomic DNA (0.0014-5.66), which occurred around day 14 (day10 - day 28). Importantly, GC022F persisted well in PB with a median of 2.40×105 copies/µg genomic DNA (0.75-3.98) on day 28 in 5 of 9 patients with available 4 weeks of cellular kinetics data. GC022F exerted a superior safety profile with no observed grade ≥ 3 cytokine release syndrome (CRS) and neurotoxicity in all patients. Among those 6 patients with CRS, only 1 at high dose level had grade 2 CRS; only 1 developed grade 1 neurotoxicity. After GC022F infusion, 6/6 patients with BM blasts & gt; 5% at enrollment achieved complete remission (CR) by day 28, 5/6 with minimal residual disease (MRD)-negative CR. For those 4 patients with MRD positive disease at enrollment, 3 became MRD-negative CR by day 28, 1 had persist MRD positive disease and withdrew from the study by 2 weeks. Five of 8 MRD-negative CR patients subsequently made a choice to pursue consolidation allo-HSCT with a median time interval of 57 (48-71) days post GC022F infusion and all have remained in MRD-negative CR except 1 died from graft-versus-host disease (GVHD) and infection 143 days post GC022F infusion. Of the other 3 patients without allo-HSCT, 2 relapsed with CD19+/CD22+ disease at 12-16 weeks follow-up, including the patient with prior history of CD19 CAR-T treatment and transplant. Conclusion This study demonstrated that anti-CD19/CD22 dual CAR T-cells could be successfully manufactured by FasTCARTM technology in 24 hours, with younger and less exhausted phenotypes. Moreover, the Dual FasTCAR-T cells showed more potent efficacy in xenograft mouse model compared to the conventional dual CAR-T cells. Our clinical data demonstrate that GC022F is safe and efficacious in treating patients with CD19+CD22+ B-ALL. More data on additional patients and longer observation time are needed to further evaluate CD19/CD22 dual FasTCAR-T cell product. Disclosures Cai: Gracell Biotechnologies Ltd: Current Employment. Wang:Gracell Biotechnologies Ltd: Current Employment. Chen:Gracell Biotechnologies Ltd: Current Employment. Ye:Gracell Biotechnologies Co., Ltd.: Current Employment. He:Gracell Biotechnologies Co., Ltd.: Current Employment. Cao:Gracell Biotechnologies Ltd: Current Employment. Sersch:Gracell Biotechnologies Co., Ltd.: Current Employment.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2020-136866

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2020

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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