Abstract A020: Induction of non-canonical CAR T cell states in multiple myeloma patients with durable responses

Background: Chimeric antigen receptor (CAR) T cells targeting B-cell maturation antigen (BCMA) can induce >70% response rates in patients with relapsed/refractory multiple myeloma (RRMM). However, most patients ultimately relapse. There are two FDA-approved CAR T products: ciltacabtagene autoleucel (cilta-cel) and idecabtagene vicleucel (ide-cel), the former having much more durable responses. The mechanisms that mediate more durable responses with these CAR T cells is unknown. Previous studies have shown that specific cell states in the apheresis and infusion products are associated with long-term efficacy of anti-BCMA CAR therapy in MM and the relationship between durability of response and CAR T cell persistence remains unclear. Methods: We analyzed serial bone marrow and PBMC samples from 20 MM patients who received BCMA CAR T therapy, including cilta-cel, ide-cel, and JCARH125. Flow cytometry and single-cell RNAseq were used to evaluate the features of CAR T cells that are associated with durable clinical responses. Results: While CAR T cells were detectable but variable among patients at 1-month post infusion, the frequency of CAR T cells in bone marrow at 1-month post-infusion is positively correlated with progression free survival (PFS) in all MM patients (p=0.009). This association was also evident in patients just treated with cilta-cel (p= 0.008). By 6 months, CAR T cells could still be detected by high-throughput flowcytometry in the cilta-cel-treated patients, but CAR T cells were not detectable in most of the patients receiving the other 2 products. Cilta-cel CAR T cells predominantly possessed an effector-like surface phenotype at 1-moth post infusion in both CD8+ and CD4+ compartments in bone marrow. These CAR T cells shifted to effector memory and central memory T cell states by 6 months, respectively. For ide-cel and JCARH125, patients with more durable responses (>6mos) there was a significantly higher proportion of CAR T cells with CD8+ effector memory-like state at 1-month post infusion. Conclusions: Our data demonstrate that distinct anti-BCMA CAR T cell treatments lead to very different cellular outcomes: Cilta-cel CAR T cell treatment leads to greater expansion and persistence compared to other anti-BCMA CAR T cells. Cilta-cel CAR T cells also shift from the initial effector state to a memory phenotype. These results provide insights into features of more efficacious anti-BCMA CAR T cells that can help guide the future development of more durable treatments for MM. Citation Format: Kai Wu, Karen Law, Guy Ledergor, Chang Liu, Zenghua Fan, Vibha Gurunathan, Averey Lea, Matthew Clark, Serena Kwek, Alexander Cheung, Jeffrey Wolf, Ajai Chari, Anupuma Kumar, Justin Eyquem, Thomas Martin, Lawrence Fong. Expansion and persistence of anti-BCMA CAR T cells correlates with durability of responses in multiple myeloma patients [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3617.

Development and Evaluation of an Optimal Human Single-Chain Variable Fragment-Derived BCMA-Targeted CAR T Cell Vector.

A Novel and Highly Potent CAR T Cell Drug Product for Treatment of BCMA-Expressing Hematological Malignances

Rapid Response to Idecabtagene Vicleucel in a Myeloma Patient Refractory to Multiple Prior Lines of Anti-BCMA Directed Therapies

Updated Results from an Ongoing Phase 1 Clinical Study of bb21217 Anti-Bcma CAR T Cell Therapy

Introduction: Despite therapeutic advances, multiple myeloma remains incurable. BCMA targeting immunotherapies, such as bispecific T-cell engagers (TCE) and autologous CAR-T provide high response rates, but relapses are common. Autologous CAR-T are logistically challenging due to the need for apheresis, prolonged manufacturing and occasional manufacturing failures. Importantly, pts who have progressed after a prior BCMA targeting immunotherapy are an emerging area of high unmet need. Emerging data indicate that autologous CAR-T have lower clinical activity in pts ho have progressed on TCE. Methods: P-BCMA-ALLO1 is an allogeneic CAR-T therapy manufactured from healthy donor T-cells available “off-the-shelf” and being evaluated in a phase 1 clinical trial (P-BCMA-ALLO1-001) in RRMM pts. This primary objective is to determine the maximum tolerated dose of P-BCMA-ALLO1, and the key secondary objective is to investigate the anti-myeloma activity. The pts must have progressed on a prior proteasome inhibitor, immunomodulatory drug and anti-CD38 monoclonal antibody. The study allows enrollment of pts who have received prior BCMA targeting therapy. The study is exploring escalating P-BCMA-ALLO1 doses and several different lymphodepletion chemotherapy (LD) regimens. Here we report the safety and early efficacy results for the 5 pts who were treated with P-BCMA-ALLO1 after having progressed on BCMA targeting CAR-T, TCE or both. These pts were treated in arms P1 (LD: cyclophosphamide (cy) 500 mg/m2 + fludarabine (flu) 30 mg/m2 X 3 days) or arm P2 (LD: cy 1000 mg/m2 + flu 30 mg/m2 X 3 days) at a P-BCMA-ALLO1 dose of > 2 X 106 to <6 X 106 cells/kg. Results: The median pt age was 62 years and median prior lines of therapy was 10. Three pts were treated in arm P2 and 2 in arm P1. Two pts had received prior teclistamab, 2 had received prior CAR-T and 1 had received prior teclistamab and CAR-T. P-BCMA-ALLO1 was well tolerated with no dose limiting toxicities or graft vs. host disease. Three of the five pts developed cytokine release syndrome (all grade (G) 2) and one developed G2 immune effector cell neurotoxicity syndrome. Three of the five pts (60%) achieved clinical responses with all three achieving the best response of very good partial response. The two non-responders had previously received and failed to achieve clinical response with teclistamab. One pt who had previously received both teclistamab and CAR-T achieved VGPR. Conclusion: In conclusion, P-BCMA-ALLO1 is an allogeneic CAR-T that is available “on-demand” with activity in RRMM pts who have progressed following prior BCMA targeted CAR-T and TCE. We believe this is the first such report of an allogeneic CAR-T showing clinical activity in such a pt population with high unmet need. Enrollment is continuing and updated data will be presented at the meeting. Citation Format: Bhagirathbhai Dholaria, Leyla Shune, Andrew Kin, Katherine McArthur, Jeff D. Eskew, Christopher E. Martin, Sabrina Haag, Joanne McCaigue, Hamid Namini, Sam DePrimo, Stacey Cranert, Julia Coronella, Devon Shedlock, Rajesh Belani. Clinical activity of P-BCMA-ALLO1, a B-cell maturation antigen (BCMA) targeted allogeneic chimeric antigen receptor T-cell (CAR-T) therapy, in relapsed refractory multiple myeloma (RRMM) patients (pts) following progression on prior BCMA targeting therapy [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 2 (Late-Breaking, Clinical Trial, and Invited Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(7_Suppl):Abstract nr CT071.

OAB-053: Clinical outcomes of relapsed/refractory multiple myeloma patients after BCMA-targeted CAR T therapy

Increased Bone Turnover and Decreased BCMA Levels in Patients with Response to Anti-BCMA CAR T Cell Therapy in Relapsed/Refractory Multiple Myeloma

Tigit: The Potential Mechanisms of Relapse in Multiple Myeloma Following Anti-BCMA CAR-T Therapy and a Promising Target for Improving CAR-T Efficacy

Patients treated with chimeric antigen receptor (CAR) T cells targeting CD19 for B cell malignancies have experienced rapid and durable tumor regressions. Manufacture of CAR T cells for treatment requires ex vivo culture to facilitate CAR gene transfer and to achieve a therapeutic dose of the modified cells. Recent data suggests that specific T cell subtypes can provide enhanced anti-tumor efficacy, spurring efforts to optimize the production of therapeutic T cells via the cumbersome physical isolation of central memory T cells or culture in cytokines such as IL-7 and IL-15. Here we explored the potential for a simple culture modification to improve the therapeutic potential of CAR T cells without adding manufacturing complexity. To this end, we produced CAR T cells specific to B cell maturation antigen (BCMA) using standard IL-2 culture conditions supplemented with a PI3K inhibitor, or with IL-7 and IL-15 in place of IL-2. The in vivo activity of CAR T cells was studied in mouse models of human Burkitt's lymphoma (Daudi) and multiple myeloma (RPMI-8226), both of which express BCMA. In the Daudi model, NSG mice were injected intravenously with 2 × 106 tumor cells and allowed to accumulate a large tumor burden to model late stage disease observed in relapsed and refractory lymphoma. In this advanced disease model, anti-BCMA CAR T cells (4 × 106/mouse) cultured either in IL-2 or IL-7 and IL-15 had little or no effect on tumor growth (p = 0.22 and 0.23, respectively) and all mice succumbed to tumors within two weeks of treatment. In contrast, all animals treated with the same number of anti-BCMA CAR T cells cultured with PI3K inhibition survived and had complete long-term tumor regression (p = 0.003). The same anti-BCMA CAR T cells were studied in a model of multiple myeloma. NSG mice were injected subcutaneously with 107 RPMI-8226 cells and 22 days later received a single administration of anti-BCMA CAR T cells (4 × 105/mouse) cultured under various conditions. In this model, tumor regression occurred regardless of in vitro culture conditions. To model tumor relapse and evaluate CAR T cell durability, surviving animals were re-challenged with RPMI-8226 cells on the opposite flank two weeks after initial tumor clearance. In contrast to other conditions, all animals treated with anti-BCMA CAR T cells cultured with PI3K inhibition were protected against subsequent tumor challenge (p = 0.005). This improved therapeutic activity of anti-BCMA CAR T cells cultured with PI3K inhibition was associated with an increased frequency of CD62L+ CD8+ T cells in the drug product (p < 0.001) suggesting enrichment of this distinct CD8 T cell subset. These data suggest that inhibition of PI3K during ex vivo expansion with IL-2 may generate an improved anti-BCMA CAR T cell product for clinical use. Furthermore, this approach could potentially be used in the manufacture of other T cell therapies. Citation Format: Shannon Grande, Molly R. Perkins, Amanda Hamel, Holly M. Horton, Fay Eng, Claire J. Rhodes, Tracy E. Garrett, Sara M. Miller, John W. Evans, Howard J. Latimer, Christopher Horvath, Michael Kuczewski, Kevin Friedman, Richard A. Morgan. Inhibition of the PI3K/Akt pathway during CAR T cell production results in enhanced efficacy across multiple in vivo tumor models. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2296.

Background: Chimeric antigen receptor (CAR) T cell therapy has revolutionized treatment of relapsed/refractory multiple myeloma (RRMM). Robust variables that predict long-term response are currently missing. Limited data are especially available on the impact of bridging therapies on manufacturing and outcome. We conducted a longitudinal single-cell multi-omics study to identify factors that predict response to BCMA-directed CAR T cells. Changes in the immune microenvironment associated with response were analyzed as well as the impact of prior bridging therapy with bispecific antibodies on subsequent CAR T cell manufacturing and outcome. Methods: Peripheral blood mononuclear cells (PBMCs) were isolated from 29 consecutive MM patients treated with commercially available anti-BCMA CAR T cells on the day of leukapheresis as well as days 30 and 100 after CAR T cell infusion. PBMCs were subjected to single cell RNA, T-cell receptor (TCR) and B-cell receptor (BCR) sequencing. A custom panel of 57 oligonucleotide-coupled antibodies was used to study surface proteomics. Downstream analyses were performed with Seurat. Differences in cellular compositions at all three time points were analyzed with scCODA. To analyze CAR T cell functionality, CAR T cells from peripheral blood were isolated 7 days after infusion and subjected to an in vitro cytotoxicity assay after expansion and stimulation. Patients were grouped based on their best response following CAR T cell infusion (CR: n=12, non CR: n=17). Results: In total, 375,338 cells were sequenced (median 7246 cells/sample, range 1,569-10,972 cells) and 354,878 cells (94.5%) passed quality assessment. Quantitative and qualitative differences in the cellular composition of peripheral blood between CR and non CR patients were detected at the time of leukapheresis as well as on days 30 and 100 following infusion. CR patients harbored significantly more CD8+ effector memory T cells (TEM) at leukapheresis and less NK cells on day 30 after therapy compared to non CR patients. Regulatory T cells isolated at the time of leukapheresis from non CR patients exhibited significantly higher surface protein levels of CXCR3, CD40, CD95 and KLRG1 (p<0.015, respectively) that have been associated with T cell senescence and impaired tumor immunity. No significant differences in cell numbers between CR and non CR were detected on day 100 after CAR T cell infusion. However, single cell TCR analysis revealed an increasing diversity in the TCR repertoire over time in patients with CR, while Shannon diversity decreased from leukapheresis over day 30 to day 100 in non CR patients (p=0.004). The prior administration of the bispecific antibody teclistamab had no significant impact on the quantitative cellular composition at the time of leukapheresis. However, termination of manufacturing in the first attempt occurred in all patients with a close proximity of teclistimab administration and apheresis. Differential gene expression analysis showed that the application of teclistamab was associated with impaired T cell activation and exhaustion indicated by upregulation of e.g. CTLA4, TIGIT, LAG3 and GZMK. After discontinuation of teclistamab (median 4 weeks) and successful manufacturing of CAR T cells, we found no significant differences for in vitro cytotoxicity and in vivo expansion of CAR T cells. CAR T cells isolated at day 7 post-infusion from patients in CR, non CR or with prior teclistamab exposure, effectively eliminated MM cells (U-266). Tracking of single CAR T cells over time showed that the majority of CAR+ cells were CD8+ TEMs regardless of remission achievement or prior teclistamab exposure. Conclusion: We demonstrate that differences between MM patients achieving a CR and patients with suboptimal response upon anti-BCMA CAR T cell therapy can already be identified at the time of leukapheresis. Long-term changes associated with CR include a diversification of the TCR repertoire. Successful CAR T cell manufacturing is hampered by exposure to bispecific antibodies but can be successfully achieved by allowing for a wash-out phase of ca. 4 weeks.

Safety and Efficacy of GPRC5D CAR T Cell Therapy in Relapsed/Refractory Multiple Myeloma Patients

B-cell maturation antigen chimeric antigen receptor T-cell re-expansion in a patient with myeloma following salvage programmed cell death protein 1 inhibitor-based combination therapy.

Manufacturing an Enhanced CAR T Cell Product By Inhibition of the PI3K/Akt Pathway During T Cell Expansion Results in Improved In Vivo Efficacy of Anti-BCMA CAR T Cells

Background: Multiple myeloma (MM) is a usually fatal malignancy of plasma cells, with no current therapy considered curative. About 15% of patients diagnosed with MM are stratified as high risk with poor treatment outcomes and short (2-3 years) survival from diagnosis. Standard risk patients tend to live longer but undergo chronic and/or high intensity therapy and likely experience a relapsing and remitting disease pattern. Therefore, there is still a considerable unmet need for innovative therapies that improve outcomes in MM. One such approach is to use adoptive transfer of engineered autologous T cells expressing a chimeric antigen receptor (CAR) directed against malignant cells. The efficacy of CAR T cells directed against hematological malignancies, particularly CD19-expressing B cell leukemia and lymphomas, has been demonstrated in multiple clinical studies. KITE-585 was developed as a CAR T cell immunotherapy product candidate directed against B cell maturation antigen (BCMA). BCMA is nearly ubiquitously expressed on MM cells, plasma cells and subsets of mature B cells, but with limited or absent expression on other tissues. Methods: We generated >50 fully human IgGs directed against BCMA using the BCMA protein as antigen and selection criteria including affinity, cross-reactivity and poly-specificity. Following assessment of the binding of the IgGs to a MM cell line known to express BCMA, >10 IgGs were identified that met the criteria for affinity and selectivity and had a >50-fold binding over background. The 8 IgGs that demonstrated the highest specific binding were then sequence-converted to single-chain variable fragments (scFvs) and incorporated into CARs. Results: In all but one case, human T cells engineered to express these CAR constructs exhibited specific cytolytic activity against MM cell lines (NCI-H929 and MM.1s). These CAR T cells demonstrated killing efficiencies of >95% at effector:target ratios of 1:1 over a 24-hour period. Similarly antigen-specific production of inflammatory cytokines was observed in response to target cell lines in vitro. Assessment of antigen-dependent proliferation over a 5 day period revealed >80% proliferation in the 7 constructs that showed cytolytic activity in vitro. Multiple different anti-BCMA CAR constructs representing distinct epitope binding bins of BCMA were then selected for in vivo evaluation. In two disseminated tumor models of luciferase labeled NCI-H929 or MM.1s cells injected intravenously (i.v.), a single i.v. injection of anti-BCMA CAR T-cells delayed the progression of disease and significantly increased survival when compared to control treatment. Conclusions: The results of these studies highlight the potential of targeting BCMA with adoptive transfer of engineered T cells for the treatment of MM. Given these positive findings, progress towards Phase 1 clinical studies in MM patients with KITE-585 is continuing. Citation Format: Gregor B. Adams, Jun Feng, Atefah Ghogha, Armen Mardiros, Jodi Murakami, Tammy Phung, Ruben Rodriguez, Stuart Sievers, Tassja J. Spindler, Jed Wiltzius, Clare Yarka, Sean C. Yoder, Tony Polverino. Development of KITE-585: A fully human BCMA CAR T-cell therapy for the treatment of multiple myeloma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 4979. doi:10.1158/1538-7445.AM2017-4979