Abstract: Background: Diffuse large B-cell lymphoma (DLBCL) is the most common aggressive B-NHL. While 50-80% of patients with DLBCL are cured with standard induction therapy, a large fraction of patients either relapse or have primary refractory (rel/ref) disease. High-dose therapy followed by autologous stem cell transplantation (HDT-ASCT) is the established standard of care for these patients. Despite this, approximately half of all rel/ref patients that are chemosensitive to salvage therapy are cured with this approach. Relapse is the major cause of treatment failure, and ultimately death, in these patients. Our group has demonstrated encouraging activity with 19-28z chimeric antigen receptor modified T cells (19-28z CAR-T) directed against CD19 in rel/ref ALL. We hypothesize that biologic optimization of cellular therapy with 19-28z CAR-T can be met immediately post-HDT-ASCT given: lymphoproliferative cytokine availability through lymphodepletion post-HDT, depletion of prohibitive regulatory cellular elements post-HDT and achievement of minimal residual disease prior to 19-28z CAR-T consolidation. Herein, we report safety data on the first 6 patients of the phase I MSKCC #12-117: 19-28z CAR-T post HDT-ASCT for poor-risk rel/ref aggressive B-NHL. Methods: Eligibility for this study includes rel/ref aggressive B-NHL appropriate for HDT-ASCT as defined by chemosensitivity to salvage therapy and poor risk features including: 1) FDG-PET positivity following 2 cycles of salvage therapy or 2) bone marrow involvement of B-NHL at the time of rel/ref clinical restaging. Patients underwent separate apheresis for CD34+ progenitor cells and CD3+ T cells. T cells were transduced with a retrovirus encoding a CAR construct composed of anti-CD19 scFV linked to CD28 and CD3ζ signaling domains (19-28z). Patients were admitted for BEAM conditioned HDT and ASCT occurred day 0. Pegfilgrastim was administered on day+1 and 19-28z CAR-T dose per phase I study was split on days +2 and +3. Results: This analysis includes the first six patients, all male, on the phase I study. The median age is 61 (range 34-68) years at the time of HDT-ASCT. Diagnoses included: n=2 relapsed and transformed follicular lymphoma (one with double-hit biology), n=3 relapsed DLBCL (one CD5+) and one subject with relapsed and transformed marginal zone lymphoma involving the bone marrow. Five patients were treated at dose level #1 (5 x106 19-28z CAR-T/kg) with no dose-limiting toxicity (DLT) observed. Four of the five patients at dose level #1 experienced grade 3 febrile neutropenia and one patient met-criterion for non-severe cytokine-release syndrome (nCRS) effectively treated with tocilizumab 4 mg/kg x1. One patient was treated at dose-level #2, 1 x107 CAR-T/kg, and experienced a DLT of grade 4 severe CRS (sCRS) manifested with acute kidney injury, hypotension and mental status changes effectively treated and fully recovered with tocilizumab in combination with dexamethasone. Peak CRP in all patients was observed at a median of 3.5 days (range 3-4 days) post-19-28z CAR-T infusion (median peak CRP= 17 mg/dL, range: 5-43.1 mg/dL), with CRP 〉 20 mg/dL identified in the two patients that experienced CRS (nCRS=27 mg/dL, sCRS=43 mg/dL). Previously associated serum cytokine elevations (Davila et al Sci Trans Med, 2014) were observed in the two patients that experienced CRS (Figure). All patients engrafted neutrophils at a median of 10 days (range: 9-10 days) post-ASCT, and achieved a complete remission at first post-HDT-ASCT restaging. No sequelae of autoimmune phenomenon were observed. At a median follow-up of six months, with 2 patients 〉 one year post HDT-ASCT, all patients remain alive and in remission. Conclusions: This is the first report of 19-28z CAR-T cells in conjunction with consolidative HDT-ASCT for poor-risk rel/ref aggressive B-NHL. No DLTs have been observed at dose level #1, 5 x106 19-28z CAR-T/kg, while sCRS was observed in n=1 at 1 x107 CAR-T/kg resulting in a DLT. CRS was associated with pro-inflammatory serum cytokine elevation. CRS was aborted with tocilizumab with (sCRS=1) or without (nCRS=1) dexamethasone. All patients engrafted neutrophils at the expected time point. The use of 19-28z CAR T cells is a promising approach in this small group of poor-risk PET+ NHL patients undergoing autologous transplant. This is an ongoing trial and updated data will be presented. Figure 1 Figure 1. Disclosures Riviere: Juno Therapeutics: Consultancy, scientific co-founders Other. Sadelain:Juno Therapeutics: Consultancy, Scientific co-founder and Stock holder Other. Brentjens:Juno Therapeutics: Consultancy, scientific co-founder Other.

Abstract: Introduction: BCMA targeted CAR T cell therapy has shown promising results in patients with relapsed/refractory multiple myeloma (MM). Herein, we report on the safety and efficacy of MCARH171, a second generation, human derived BCMA targeted autologous 4-1BB containing CAR T cell therapy, including a truncated epidermal growth factor receptor safety system (Smith EL. Mol Ther 2018). Methods: This is a phase I first in human, dose escalation trial of MCARH171. Patients received conditioning chemotherapy with cyclophosphamide (Cy) 3 gm/m2 as a single dose or fludarabine 30 mg/m2 daily and Cy 300 mg/m2 daily for 3 days followed by MCARH171 infusion in 1-2 divided doses. The trial followed a standard 3+3 design with 4 dose levels where patients received the following mean doses per cohort: (1) 72x106, (2) 137x106, (3) 475x106, (4) 818x106 viable CAR+ T cells. The primary objective was to demonstrate safety, and secondary objectives included efficacy and expansion, and persistence of CAR T cells using PCR from the peripheral blood. The last accrued patient received MCARH171 on Dec 6, 2017 and the data cut-off is July 16, 2018. The study is closed to accrual. Results: 11 patients with relapsed and/or refractory MM were treated. Median number of prior lines of therapy was 6 (range: 4-14), and all patients received prior therapy with a proteasome inhibitor, IMiD, anti-CD38 monoclonal antibody, and high dose melphalan/stem cell transplant. Nine (82%) patients had high-risk cytogenetics and 9 (82%) were refractory to their immediate prior line of treatment. One patient was not evaluable for DLTs given the need for early radiation and steroids for impending spinal cord compression by tumor. There are no DLTs reported. Cytokine release syndrome (CRS) grade 1-2 occurred in 4 patients (40%), grade 3 occurred in 2 (20%), and there was no grade 4-5 CRS. Grade 2 encephalopathy occurred in 1 patient (10%) in the setting of high fevers which resolved in less than 24 hours. There was no grade 3 or higher neurotoxicity observed. Tocilizumab was administered to 3 patients; 2 in cohort 2, and 1 in cohort 3. Laboratory values correlating with CRS reaching grade 3 or requiring Tocilizumab (N=4) compared to those with no or milder CRS (N=6) included peak CRP (mean: 28.5 vs 4.6 mg/dL, p 〈 0.001), IFNg (mean peak fold increase: 271 vs 11-fold, p 〈 0.0001), and peak IL6 before Tocilizumab, as IL6 elevation artificially increases after use (mean: 435 vs 68.7 pg/mL, p 〈 0.005). No significant change was seen in ferritin or fibrinogen compared to baseline. Overall response rate was 64% and the median duration of response was 106 days (range: 17 to 235 days). The peak expansion and persistence of MCARH171 as well as durable clinical responses were dose dependent. Patients who were treated on the first two dose cohorts (≤150 X106 CAR T cells) had a lower peak expansion in the peripheral blood (mean 14,098 copies/µL; N=6), compared to patients who were treated on the third or fourth dose cohort 3-4 (≥450 X106 CAR T cells; N=5), where the mean peak expansion was 90,208 copies/µL (p 〈 0.05). Among the 5 patients who received higher doses (450 X106), 5/5(100%) patients responded. The duration of responses was also related to the cell dose, with 3 of 5 patients (60%) treated in the cohorts receiving ≥450 X106 had clinical responses lasting 〉 6 months compared to only 1 of 6 (16.7%) patients who received lower doses. Two patien have ongoing responses (VGPR) at 7.5+ and 10+ months of follow up. To normalize for dose administered we compared the pharmacokinetics of only patients treated at dose levels 3-4 ( ≥450 X106 CAR T cells). Here, we demonstrate that peak expansion correlated to clinical efficacy, with the 3 durable responders all having peak expansion 〉 85,000 copies/µL (mean: 131,732 copies/µL); compared to transient responders, where the maximum peak expansion was 33,213 copies/µL (mean: 27,922; Figure 1). Conclusions: MCARH171 has an acceptable safety profile with no DLTs reported. A dose-response relationship with toxicity was not clearly observed, as noted by distribution of tocilizumab use across dose cohorts. However, a dose-response relationship was observed with promising clinical efficacy at dose levels of ≥450 X106 CAR T cells. Controlling for dose level, peak expansion correlated with durability of response. These results further support the development of CAR T cells for heavily pre-treated patients with relapsed and refractory MM. Disclosures Mailankody: Janssen: Research Funding; Takeda: Research Funding; Juno: Research Funding; Physician Education Resource: Honoraria. Korde:Amgen: Research Funding. Lesokhin:Takeda: Consultancy, Honoraria; Squibb: Consultancy, Honoraria; Janssen: Research Funding; Genentech: Research Funding; Serametrix, inc.: Patents & Royalties: Royalties; Bristol-Myers Squibb: Consultancy, Honoraria, Research Funding. Hassoun:Oncopeptides AB: Research Funding. Park:Juno Therapeutics: Consultancy, Research Funding; Amgen: Consultancy, Membership on an entity's Board of Directors or advisory committees; Pfizer: Consultancy; AstraZeneca: Consultancy; Adaptive Biotechnologies: Consultancy; Kite Pharma: Consultancy; Novartis: Consultancy; Shire: Consultancy. Sauter:Juno Therapeutics: Consultancy, Research Funding; Sanofi-Genzyme: Consultancy, Research Funding; Spectrum Pharmaceuticals: Consultancy; Novartis: Consultancy; Precision Biosciences: Consultancy; Kite: Consultancy. Palomba:Pharmacyclics: Consultancy; Celgene: Consultancy. Riviere:Fate Therapeutics Inc.: Research Funding; Juno Therapeutics, a Celgene Company: Membership on an entity's Board of Directors or advisory committees, Research Funding. Landgren:Takeda: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding; Amgen: Consultancy, Research Funding; Pfizer: Consultancy; Janssen: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding; Karyopharm: Consultancy; Merck: Membership on an entity's Board of Directors or advisory committees; Celgene: Consultancy, Research Funding. Brentjens:Juno Therapeutics, a Celgene Company: Consultancy, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties, Research Funding. Smith:Celgene: Consultancy, Patents & Royalties: CAR T cell therapies for MM, Research Funding.

Abstract: Background: BCMA targeted CAR T cell therapy has shown promising results in patients with relapsed/refractory multiple myeloma (RRMM), but relapses are common. Additional treatment options with novel therapeutic targets or mechanisms of action are needed. Here we report on the safety and efficacy of MCARH109, the first-in-class G Protein Coupled Receptor Class C Group 5 Member D (GPRC5D) targeted CAR T cell therapy (Smith EL et al. Sci. Trans Med 2019) in RRMM including patients who relapsed post BCMA targeted CAR T cell therapy. Methods: This is a phase I first-in-human, dose escalation trial of MCARH109; patients received lymphodepleting chemotherapy with fludarabine 30 mg/m 2 daily and cyclophosphamide 300 mg/m 2 daily for 3 days followed by a single infusion of MCARH109. The trial followed a standard 3+3 design with the following dose cohorts to date: 25X10 6, 50X10 6, 150X10 6, 450X10 6 viable CAR + T cells. The primary objective is to assess safety of MCARH109; secondary objectives include anti-myeloma efficacy, expansion and persistence of MCARH109 using quantitative polymerase chain reaction (qPCR) on peripheral blood and bone marrow samples. Results: 18 patients with RRMM were enrolled and underwent apheresis between September 15, 2020 and July 14, 2021. 12 patients have completed MCARH109 infusion to date, with 6 patients currently undergoing manufacturing and pending treatment. Of the 12 patients treated, median age was 59 (37-76) years and patients received a median of 8 (4-14) lines of therapy. 11 (92%) were penta-exposed, all patients were triple refractory, and 7 (58%) had prior treatment with BCMA targeted therapy including 6 (50%) who received prior BCMA CAR T therapy. 3 (25%) patients had non-secretory myeloma and 6(50%) patients had extramedullary plasmacytoma at baseline. 11 (92%) were refractory to last line of therapy and 11 (92%) patients received bridging therapy after apheresis prior to MCARH109 infusion; all patients were refractory to bridging therapy. There were no dose limiting toxicities. Cytokine release syndrome (CRS) grade 1-3 occurred in 11 (92%) patients with only one patient with grade 3 event; 4 (25%) patients received tocilizumab and 1 (8%) received dexamethasone for the treatment of CRS (Table). There were no neurologic toxicities reported to date; 3 (25%) patients had grade 1 nail changes possibly related to MCARH109 (Table). As of July 28, 2021, all treated patients have been followed for at least 2 weeks (median: 13.0 weeks; range: 2.0-39.1 weeks) and 10 (83%) had at least a minimal response or better (2 responses unconfirmed): 2 minimal response, 3 partial response, 3 very good partial response, 2 stringent complete response (sCR). 5 (56%) of the first 9 patients were minimal residual disease (MRD) negative in the bone marrow by multicolor flow cytometry (sensitivity: 10 -5). 6 (100%) patients with prior BCMA CAR T therapy had a response with 2 patients achieving sCR. We also noted robust MCARH109 expansion in the peripheral blood using qPCR across the first 3 dose levels with available data (peak expansion vector copy number/mL, median: 404,467; range: 44,670- 3,560,000; Table). With a median follow-up of 13 weeks, 9 (75%) patients are progression free and followed without additional therapy. Conclusions: MCARH109 is the first-in-class GPRC5D targeted CAR T cell therapy for MM and has a very manageable safety profile with no serious or unexpected toxicities; this dose escalation study is ongoing with additional patients planned for treatment at higher doses. Efficacy is promising in heavily pre-treated RRMM, reflected in high rates of clinical response as well as MRD-negativity, including at doses as low as 25x10 6 CAR T cells. Clinically important, all 6 patients who relapsed after BCMA CAR T therapy responded to GPRC5D targeted CAR T therapy, including 2 patients who achieved sCR. Figure 1 Figure 1. Disclosures Mailankody: Allogene Therapeutics: Research Funding; Physician Education Resource: Honoraria; Bristol Myers Squibb/Juno: Research Funding; Takeda Oncology: Research Funding; Fate Therapeutics: Research Funding; Jansen Oncology: Research Funding; Evicore: Consultancy; Legend Biotech: Consultancy; Plexus Communications: Honoraria. Shah: Janssen: Research Funding; Celgene/BMS: Research Funding. Lesokhin: pfizer: Consultancy, Research Funding; Iteos: Consultancy; Trillium Therapeutics: Consultancy; Genetech: Research Funding; Serametrix, Inc: Patents & Royalties; bristol myers squibb: Research Funding; Janssen: Honoraria, Research Funding; Behringer Ingelheim: Honoraria. Korde: Medimmune: Membership on an entity's Board of Directors or advisory committees; Amgen: Research Funding. Hassoun: Celgene, Takeda, Janssen: Research Funding. Hultcrantz: GlaxoSmithKline: Membership on an entity's Board of Directors or advisory committees, Research Funding; Amgen: Research Funding; Daiichi Sankyo: Research Funding; Intellisphere LLC: Consultancy; Curio Science LLC: Consultancy. Shah: Amgen: Research Funding; Janssen: Research Funding. Landau: Takeda, Janssen, Caelum Biosciences, Celgene, Pfizer, Genzyme: Membership on an entity's Board of Directors or advisory committees; Takeda: Research Funding; Genzyme: Honoraria. Scordo: Angiocrine Bioscience: Consultancy, Research Funding; Omeros Corporation: Consultancy; Kite - A Gilead Company: Membership on an entity's Board of Directors or advisory committees; i3 Health: Other: Speaker; McKinsey & Company: Consultancy. Roshal: Auron Therapeutics: Other: Ownership / Equity interests; Provision of services; Celgene: Other: Provision of services; Physicians' Education Resource: Other: Provision of services. Landgren: Janssen: Other: IDMC; Janssen: Honoraria; Janssen: Research Funding; Amgen: Honoraria; Celgene: Research Funding; Amgen: Research Funding; Takeda: Other: IDMC; GSK: Honoraria. Dogan: Physicians' Education Resource: Honoraria; Seattle Genetics: Consultancy; Peer View: Honoraria; Takeda: Consultancy, Research Funding; Roche: Consultancy, Research Funding; EUSA Pharma: Consultancy. Giralt: Actinnum: Membership on an entity's Board of Directors or advisory committees; JENSENN: Membership on an entity's Board of Directors or advisory committees; GSK: Membership on an entity's Board of Directors or advisory committees; AMGEN: Membership on an entity's Board of Directors or advisory committees; CELGENE: Membership on an entity's Board of Directors or advisory committees; PFIZER: Membership on an entity's Board of Directors or advisory committees; JAZZ: Membership on an entity's Board of Directors or advisory committees; SANOFI: Membership on an entity's Board of Directors or advisory committees; BMS: Membership on an entity's Board of Directors or advisory committees. Park: Autolus: Consultancy; Kite Pharma: Consultancy; PrecisionBio: Consultancy; Minerva: Consultancy; Curocel: Consultancy; Intellia: Consultancy; Amgen: Consultancy; Affyimmune: Consultancy; Innate Pharma: Consultancy; Novartis: Consultancy; Servier: Consultancy; Kura Oncology: Consultancy; Artiva: Consultancy; BMS: Consultancy. Rivière: FloDesign Sonics: Other: Provision of Services; Juno Therapeutics: Patents & Royalties; The Georgia Tech Research Corporation (GTRC): Other: Provision of Services (uncompensated); Centre for Commercialization of Cancer Immunotherapy: Other: Provision of Services; Fate Therapeutics: Other: Provision of Services, Patents & Royalties. Brentjens: BMS: Consultancy, Patents & Royalties, Research Funding; Gracell Biotechnologies, Inc: Consultancy, Ended employment in the past 24 months; sanofi: Patents & Royalties; Caribou: Patents & Royalties. Smith: Eureka Therapeutics: Consultancy; Fate Therapeutics: Research Funding; Chimeric Therapeutics: Consultancy; Novarits: Consultancy; Sanofi: Patents & Royalties: GPRC5D antibody based therapies; BMS: Consultancy, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties: CAR T cells for MM. OffLabel Disclosure: MCARH109 is an experimental GPRC5D targeted CART therapy

Abstract: T cell therapies have had valuable clinical responses in patients with cancer. Chimeric antigen receptor (CAR) T cells can be genetically engineered to recognize tumor cells and CAR T cell therapy has shown impressive results in the setting of B cell acute lymphoblastic leukemia but has been less effective in treating other types of hematologic and solid tumors. The inhibitory tumor microenvironment (TME), including expression of ligands that bind inhibitory receptors on T cells, e.g. programmed death receptor 1 (PD-1), can dampen CAR T cell responses. Separately, immune checkpoint blockade therapy involving the disruption of PD-1 and programmed death receptor ligand1 (PD-L1) interaction allows for re-activation of tumor-infiltrating lymphocytes (TIL) to have anti-tumor function. This approach has shown clinical responses in a range of malignancies, but has been less efficacious in poorly immunogenic tumors. To prevent PD-1-mediated dampening of CAR T cell function, we have co-modified CAR T cells to secrete PD-1 blocking single chain variable fragments (scFv). We first designed mouse constructs with which we could investigate the scFv-secreting CAR T cells in the context of a syngeneic immune-competent intact TME. CAR constructs were engineered directed against either human CD19 or MUC-16 (ecto) with mouse signaling domains and a anti-mouse PD-1 scFv. Mouse T cells transduced with these constructs expressed the CAR on the surface and secreted detectable amounts of scFv that bound to mouse PD-1. The scFv-secreting CAR T cells were cytotoxic and produced IFN-g when co-cultured with PD-L1 expressing tumors in vitro . We utilized a syngeneic mouse model to study scFv secreting CAR T cells in a model with an intact TME. In tumor-bearing mice treated with CAR T cells, scFv-secreting CAR T cells enhanced survival as compared to second generation CAR T cells. The survival benefit achieved with scFv-secreting CAR T cells was comparable to that achieved with systemic infusion of PD-1 blocking antibody, but with localized delivery of PD-1 blockade. Mice treated with scFv-secreting CAR T cells had detectable scFv in vivo in the TME. Lastly, long term surviving mice had detectable CAR T cells in the bone marrow by PCR, demonstrating persistence and suggesting an immunological memory. We next aimed to translate PD-1 blocking scFv CAR T cells to a clinically relevant human model utilizing a novel anti-human PD-1 blocking scFv. CAR constructs were engineered with recognition domains directed against human CD19 or MUC-16 (ecto) and human signaling domains. Human T cells modified with the CAR constructs express the CAR on the surface and secrete detectable amounts of PD-1 blocking scFv. The scFv binds to human PD-1 and scFv-secreting CAR T cells are cytotoxic to PD-L1 expressing tumors. Expression of PD-1-blocking scFv enhances CAR T cell function against PD-L1 expressing tumors in xenograft models of hematological and solid tumors by enhancing survival in tumor-bearing mice as compared to second generation CAR T cells. Furthermore, scFv-secreting CAR T cells exhibit in vivo bystander T cell enhancement of function, suggesting scFv-secreting CAR T cells can reactivate endogenous TILs in the TME. These data support the novel concept that localized delivery of scFv by CAR T cells can successfully block PD-1 binding to PD-L1 and work in an autocrine manner to prevent dampening of CAR T cell responses as well as a paracrine manner to activate endogenous tumor infiltrating lymphocytes to enhance the overall anti-tumor efficacy of CAR T cell therapy. Disclosures Curran: Juno Therapeutics: Research Funding; Novartis: Consultancy. Yan: Eureka Therapeutics Inc: Employment. Wang: Eureka Therapeutics Inc.: Employment, Equity Ownership. Xiang: Eureka Therapeutics Inc.: Employment. Liu: Eureka Therpeutics Inc.: Employment, Equity Ownership, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties. Brentjens: Juno Therapeutics: Consultancy, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties, Research Funding.

Abstract: Early clinical results of chimeric antigen receptor (CAR) T cell therapy targeting B cell maturation antigen (BCMA) for multiple myeloma (MM) appear promising, but relapses associated with residual low-to-negative BCMA-expressing MM cells have been reported, necessitating identification of additional targets. The orphan G protein–coupled receptor, class C group 5 member D ( GPRC5D ), normally expressed only in the hair follicle, was previously identified as expressed by mRNA in marrow aspirates from patients with MM, but confirmation of protein expression remained elusive. Using quantitative immunofluorescence, we determined that GPRC5D protein is expressed on CD138 + MM cells from primary marrow samples with a distribution that was similar to, but independent of, BCMA. Panning a human B cell–derived phage display library identified seven GPRC5D-specific single-chain variable fragments (scFvs). Incorporation of these into multiple CAR formats yielded 42 different constructs, which were screened for antigen-specific and antigen-independent (tonic) signaling using a Nur77-based reporter system. Nur77 reporter screen results were confirmed in vivo using a marrow-tropic MM xenograft in mice. CAR T cells incorporating GPRC5D-targeted scFv clone 109 eradicated MM and enabled long-term survival, including in a BCMA antigen escape model. GPRC5D(109) is specific for GPRC5D and resulted in MM cell line and primary MM cytotoxicity, cytokine release, and in vivo activity comparable to anti-BCMA CAR T cells. Murine and cynomolgus cross-reactive CAR T cells did not cause alopecia or other signs of GPRC5D-mediated toxicity in these species. Thus, GPRC5D(109) CAR T cell therapy shows potential for the treatment of advanced MM irrespective of previous BCMA-targeted therapy.

Abstract: Patients with relapsed/refractory MM (RRMM) rarely obtain durable remissions with available therapies. Clinical use of BCMA targeted CAR T cell therapy was first reported in 12/2015 for RRMM, and based on small numbers, preliminary results appear promising. Given that host immune anti-murine CAR responses have limited the efficacy of repeat dosing (Turtle C. Sci Trans Med 2016), our goal was to develop a human BCMA targeted CAR T cell vector for clinical translation. We screened a human B cell derived scFv phage display library containing 6x1010 scFvs with BCMA expressing NIH 3T3 cells, and validated results on human MM cell lines. 57 unique and diverse BCMA specific scFvs were identified containing light and heavy chain CDR's each covering 6 subfamilies, with HCDR3 length ranges from 5-18 amino acids. 17 scFvs met stringent specificity criteria, and a diverse set was cloned into CAR vectors with either a CD28 or a 4-1BB co-stimulatory domain. Donor T cells transduced with BCMA targeted CAR vectors that conveyed particularly desirable properties over multiple in vitro assays, including: cytotoxicity on human MM cell lines at low E:T ratios ( & gt;90% lysis, 1:1, 16h), robust proliferation after repeat antigen stimulation (up to 700 fold, stimulation q3-4d for 14d), and active cytokine profiling, were selected for in vivo studies using a marrow predominant human MM cell line model in NSG mice. A single IV injection of CAR T cells, either early (4d) or late (21d) after MM engraftment was evaluated. In both cases survival was increased when treated with BCMA targeted CAR T cells vs CD19 targeted CAR T cells (median OS at 60d NR vs 35d p & lt;0.05). Tumor and CAR T cells were imaged in vivo by taking advantage of luciferase constructs with different substrates. Results show rapid tumor clearance, peak ( & gt;10,000 fold) CAR T expansion at day 6, followed by contraction of CAR T cells after MM clearance, confirming the efficacy of the anti-BCMA scFv/4-1BB containing construct. Co-culture with primary cells from a range of normal tissues did not activate CAR T cells as noted by a lack of IFN release. Co-culture of 293 cells expressing this scFv with those expressing a library of other TNFRSF or Ig receptor members demonstrated specific binding to BCMA. GLP toxicity studies in mice showed no unexpected adverse events. We generated a retroviral construct for clinical use including a truncated epithelial growth factor receptor (EGFRt) elimination gene: EGFRt/hBCMA-41BBz. Clinical investigation of this construct is underway in a dose escalation, single institution trial. Enrollment is completed on 2/4 planned dose levels (DL). On DL1 pts received cyclophosphamide conditioning (3g/m2 x1) and 72x106 mean CAR+ T cells. On DL2 pts received lower dose cyclophosphamide/fludarabine (300/30 mg/m2 x3) and 137x106 mean CAR+ T cells. All pts screened for BCMA expression by IHC were eligible. High risk cytogenetics were present in 4/6 pts. Median prior lines of therapy was 7; all pts had IMiD, PI, high dose melphalan, and CD38 directed therapies. With a data cut off of 7/20/17, 6 pts are evaluable for safety. There were no DLT's. At DL1, grade 1 CRS, not requiring intervention, occurred in 1/3 pts. At DL2, grade 1/2 CRS occurred in 2/3 pts; both received IL6R directed Tocilizumab (Toci) with near immediate resolution. In these 2 pts time to onset of fever was a mean 2d, Tmax was 39.4-41.1 C, peak CRP was 25-27mg/dl, peak IL6 level pre and post Toci were 558-632 and 3375-9071 pg/ml, respectively. Additional serum cytokines increased & gt;10 fold from baseline in both pts include: IFNg, GM CSF, Fractalkine, IL5, IL8, and IP10. Increases in ferritin were limited, and there were no cases of hypofibrinogenemia. There were no grade 3-5 CRS and no neurotoxicities or cerebral edema. No pts received steroids or Cetuximab. Median time to count recovery after neutropenia was 10d (range 6-15d). Objective responses by IMWG criteria after a single dose of CAR T cells were observed across both DLs. At DL1, of 3 pts, responses were 1 VGPR, 1 SD, and 1 pt treated with baseline Mspike 0.46, thus not evaluable by IMWG criteria, had & gt;50% reduction in Mspike, and normalization of K/L ratio. At DL2, 2/2 pts had objective responses with 1 PR and 1 VGPR (baseline 95% marrow involvement); 1 pt is too early to evaluate. As we are employing a human CAR, the study was designed to allow for an optional second dose in pts that do not reach CR. We have treated 2 pts with a second dose, and longer follow up data is pending. Figure 1 Figure 1. Disclosures Smith: Juno Therapeutics: Membership on an entity's Board of Directors or advisory committees, Patents & Royalties: BCMA targeted CAR T cells, Research Funding. Almo: Cue Biopharma: Other: Founder, head of SABequity holder; Institute for Protein Innovation: Consultancy; AKIN GUMP STRAUSS HAUER & FELD LLP: Consultancy. Wang: Eureka Therapeutics Inc.: Employment, Equity Ownership. Xu: Eureka Therapeutics, Inc: Employment, Equity Ownership. Park: Amgen: Consultancy. Curran: Juno Therapeutics: Research Funding; Novartis: Consultancy. Dogan: Celgene: Consultancy; Peer Review Institute: Consultancy; Roche Pharmaceuticals: Consultancy; Novartis: Consultancy, Membership on an entity's Board of Directors or advisory committees; Seattle Genetics: Consultancy, Membership on an entity's Board of Directors or advisory committees. Liu: Eureka Therpeutics Inc.: Employment, Equity Ownership, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties. Brentjens: Juno Therapeutics: Consultancy, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties, Research Funding.