GPRC5D is a target for the immunotherapy of multiple myeloma with rationally designed CAR T cells
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.
Early clinical results using BCMA targeted CAR T cell therapies for advanced multiple myeloma (MM) have shown promise. However, BCMA expression can be variable, and BCMA downregulation has been correlated with relapse (Brudno J. JCO. 2018; Cohen A. ASH. 2017). Targeting multiple antigens may enhance response durability. We report that the orphan seven transmembrane G protein coupled receptor, GPRC5D, is an attractive additional target for CAR T cell therapy of MM. GPRC5D mRNA expression was previously identified in bone marrow cells from patients with MM; however its protein expression could not be detected with available FACS reagents (Frigyesi I. Blood. 2014). We evaluated 83 primary marrow samples by quantitative immunofluorescence (Q-IF) for CD138, BCMA, and GPRC5D. In 98% of the samples, CD138+ cells expressed surface GPRC5D. In most samples, the majority of CD138+ cells expressed both BCMA and GPRC5D, however, in several cases the dominant CD138+ population expressed only BCMA or GPRC5D, with GPRC5D expression independent of BCMA across samples (R2=0.156; Figure 1). The potential for "on target/off tumor" binding by targeting GPRC5D was evaluated by screening 30 essential normal tissue types by IHC (n=3 donors/type) followed by validation of any positive findings by RNA in situ hybridization and quantitative PCR. Results in non-plasma cell normal tissue were consistent with prior reports of GPRC5D off target expression restricted to cells from the hair follicle, a potentially immune privileged site. We developed GPRC5D-targeted CARs considering immunogenicity, spacer length, and tonic signaling. To minimize potential anti-CAR immunity, a human B cell-derived phage display library was screened. Seven diverse and highly specific human single chain variable fragments (scFvs) were identified. 42 CARs were derived from the 7 scFvs by modifying scFv orientation (VH/VL; VL/VH) and incorporating a short, medium, or long IgG4 based spacer. To monitor CAR-mediated signaling, we transduced each CAR into a Jurkat reporter line with RFP inserted in-frame, downstream of endogenous NR4A1 (Nur77). Nur77 expression is an immediate-early, specific marker of CD3z signaling (Ashouri J. J Immunol. 2017). Using this reporter, we observed that (1) a long spacer provided enhanced antigen-dependent activation across all anti-GPRC5D CARs; and (2) the use of different scFvs resulted in vastly different levels of tonic signaling. We selected potential lead and backup constructs and evaluated CAR activity on primary human T cells. When co-cultured specifically with MM cell lines, anti-GPRC5D CAR T cells secreted a polyfunctional cytokine profile, proliferated, and effectively lysed target cells. CD138+/CD38hi primary MM bone marrow aspirate cells were also specifically lysed. In vivo efficacy of GPRC5D-targeted CAR T cells was evaluated in NSG mice engrafted with a human MM cell line (ffLuc+) bone marrow xenograft. Donor T cells were gene-modified to express anti-GPRC5D CARs with either a 4-1BB or a CD28 co-stimulatory domain and membrane-anchored Gaussia luciferase (GLuc). Compared to control CAR T cells specific for an irrelevant target, anti-GPRC5D CAR T cells with either co-stimulatory domain proliferated and homed to the site of MM (Gluc imaging), eradicated MM xenograft (ffLuc imaging), and increased survival (Figure 2). One scFv that was highly functional in our GPRC5D CAR screen was evaluated for off-target binding against either >200 G protein-coupled receptors (cell based), or >4000 human transmembrane proteins (scFv-Fc based), and demonstrated binding only to GPRC5D. Studies with murine and cynomolgus cross-reactive GPRC5D targeting CARs did not show signs of alopecia or other unexpected toxicity in either species. In a murine model of post-BCMA CAR T cell treated antigen escape (CRISPR BCMA KO of a subpopulation of MM cells), anti-GPRC5D CAR T cells rescue BCMA- relapse. These results indicate that GPRC5D will be an important target for the immunotherapy of MM. We are translating this 4-1BB-containing, human-derived, GPRC5D-targeted CAR construct to the clinic. Disclosures Smith: Celgene: Consultancy, Patents & Royalties: CAR T cell therapies for MM, Research Funding. Harrington:Juno Therapeutics, a Celgene Company: Employment, Equity Ownership. Masakayan:Agentus Inc: Employment. Jones:Juno Therapeutics, a Celgene Company: Employment, Equity Ownership. Long:Juno Therapeutics, a Celgene Company: Employment, Equity Ownership. Ghoddusi:Juno Therapeutics, a Celgene Company: Employment, Equity Ownership. Do:Juno Therapeutics, a Celgene Company: Employment, Equity Ownership. Pham:Juno Therapeutics, a Celgene Company: Employment, Equity Ownership. Wang:Eureka Therapeutics: Employment, Equity Ownership. Liu:Eureka Therapeutics, Inc.: Employment, Equity Ownership. Xu:Eureka Therapeutics: Employment, Equity Ownership. Riviere:Juno Therapeutics, a Celgene Company: Membership on an entity's Board of Directors or advisory committees, Research Funding; Fate Therapeutics Inc.: Research Funding. Liu:Eureka Therapeutics, Inc.: Employment, Equity Ownership. Sather:Juno Therapeutics, a Celgene Company: Employment, Equity Ownership. Brentjens:Juno Therapeutics, a Celgene Company: Consultancy, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties, Research Funding.
Conformations and (dis)assembly processes of ureas and thioureas are of fundamental importance in supramolecular chemistry, anion binding, or crystal engineering, both in solution and in the solid state. For sensing and switching processes a redox-active unit, such as the ferrocene/ferrocenium couple, is especially suitable. Here, self-assembly processes of redox-active ferrocenyl(thio)ureas FcNHC(X)NHR [X = O, R = Fc (1), Ph (2), 1-naphthyl (3), Me (4), Et (5); X = S, R = Fc (6), 1-
Introduction: MM-302 is an antibody-liposomal drug conjugate designed specifically to target doxorubicin to HER2-overexpressing tumor cells. MM-302 is currently being evaluated in a Phase II trial in HER2 positive metastatic breast cancer (NCT02213744). HER2-positive breast cancer accounts for about 15-20% of breast cancer cases and is defined as IHC 3+ or 2+ and HER2 FISH amplified. A substantial percentage (∼30%) of breast cancer patients show positive HER2 IHC (1+/2+) without HER2 gene amplification (“HER2 intermediate”). This population is not eligible for treatment with currently approved HER2-targeted therapies. The purpose of this study is to investigate the in vitro and in vivo delivery/activity of MM-302 in the HER2 intermediate population. Methods: In vitro binding and viability studies were performed with MM-302, PEGylated liposomal doxorubicin (PLD) and T-DM1 with a panel of cell lines representing a range of HER2 expression. HER2-mediated cellular delivery of MM-302 was investigated in vivo in different HER2 expressing tumor models using a novel PEG immunofluorescent assay herein described. Frozen tumor tissues were stained for PEG, HER2 and cytokeratin, side-by-side with two cell standard arrays: A PEG array, obtained by cell incubation with increasing concentrations of MM-302, and a HER2 array, built with a panel of cell lines at different HER2 expression (from ∼50,000 to over 1,000,000 HER2). Image analysis and subsequent regression of the PEG and HER2 fluorescent intensities from the respective standards allowed for the quantification of the number of liposomes in individual tumor cells at distinct HER2 receptor numbers. Tumor cell apoptosis following MM-302 cellular delivery was measured by immunofluorescence followed by image analysis. Results: MM-302 efficiently bound to, and induced, tumor cell death across a panel of cell lines, with no significant distinction between cell lines expressing 300-400,000 HER2 or above 1,000,000 HER2 (IHC 3+). Conversely, T-DM1, used as control, significantly bound to and induced cell death only to cells above 1,000,000 HER2 (IHC 3+). In vivo evaluation of HER2-mediated cellular delivery via PEG immunofluorescent staining showed that MM-302 can be equally efficiently internalized in tumor cells above 1,000,000 HER2 (IHC 3+) and in the HER2 intermediate expression range. Preliminary analysis on post-treatment patient biopsies collected during a MM-302 Phase I study (NCT01304797) support clinical translation of these preclinical observations. Conclusions: Treatment with MM-302 results in efficient HER2 binding and liposome cellular delivery across a panel of HER2 models that extend beyond the traditional HER2 positive definition. This study suggests that MM-302 may be a promising candidate for the treatment of patients with intermediate HER2 expression who represent a significant unmet medical need. Citation Format: Elena Geretti, Christopher Espelin, Bambang Adiwijaya, Nancy Dumont, Silvia Coma, Zachary Koncki, Minh Pham, Gabriela Garcia, Troy Bloom, Victoria Rimkunas, Joe Reynolds, Karen Campbell, Victor Moyo, Istvan Molnar, Patricia LoRusso, Ian Krop, Kathy Miller, Cynthia Ma, Pamela Munster, Thomas Wickham. HER2-targeted PEGylated liposomal doxorubicin (MM-302) efficiently targets the HER2 intermediate cell population in vitro and in vivo. [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 LB-061.
Ephrin receptor A2 (EphA2) is a member of the Ephrin/Eph receptor cell-to-cell signaling family of molecules, and it plays a key role in cell proliferation, differentiation, and migration. EphA2 is overexpressed in a broad range of cancers, and its expression is in many cases associated with poor prognosis. We recently developed a novel EphA2-targeting antibody-directed nanotherapeutic encapsulating a labile prodrug of docetaxel (EphA2-ILs-DTXp) for the treatment of EphA2-expressing malignancies. Here, we characterized the expression of EphA2 in bladder cancer using immunohistochemistry in 177 human bladder cancer samples and determined the preclinical efficacy of EphA2-ILs-DTXp in four EphA2-positive patient-derived xenograft (PDX) models of the disease, either as a monotherapy, or in combination with gemcitabine. EphA2 expression was detected in 80–100% of bladder cancer samples and correlated with shorter patient survival. EphA2 was found to be expressed in tumor cells and/or tumor-associated blood vessels in both primary and metastatic lesions with a concordance rate of approximately 90%. The EphA2-targeted antibody-directed nanotherapeutic EphA2-ILs-DTXp controlled tumor growth, mediated greater regression, and was more active than free docetaxel at equitoxic dosing in all four EphA2-positive bladder cancer PDX models. Combination of EphA2-ILs-DTXp and gemcitabine in one PDX model led to improved tumor growth control compared to monotherapies or the combination of free docetaxel and gemcitabine. These data demonstrating the prevalence of EphA2 in bladder cancers and efficacy of EphA2-ILs-DTXp in PDX models support the clinical exploration of EphA2 targeting in bladder cancer.
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