Your search keyword '"Philip Chu"' showing total 2 results

1. Abstract 5513: Chimeric CD3 fusion receptors expressed on iPSC-derived universal TCR-less CAR-T and -NK cells synergize with bispecific engagers to enhance antitumor activity and limit antigen escape

Author

Eigen Peralta, Dan Lu, Mark Landon, Hui-Yi Chu, Amit Mehta, Philip Chu, Alec Witty, Tom Lee, and Bahram Valamehr

Subjects

Cancer Research, Oncology

Abstract

Despite success in hematologic malignancies, chimeric antigen receptor (CAR) T cells have been less effective in solid tumors, in part because of the heterogeneous expression of the CAR-specific target antigen (1° Ag) found within the tumor mass. In combination with a CAR, bispecific T cell engagers (BiTEs) can target additional tumor antigens (2° Ag) while engaging CD3 signaling molecules on T cells, providing a unique way to address tumor heterogeneity, mitigate antigen escape and further potentiate durable effector function. However, in generating off-the-shelf universal CAR-T and NK cells, a combination strategy is not feasible as neither modified cell product is compatible to specifically engage with a BiTE. In developing allogeneic CAR-T cells, the T cell receptor (TCR) surface expression must be eliminated to prevent graft versus host disease, but the absence of surface TCR expression leads to loss of surface CD3 expression and BiTE compatibility. Similarly, NK cells naturally lack TCR expression and have no surface CD3 molecules for BiTE engagement. Here we discuss the development of a novel chimeric CD3ε fusion receptor (CD3-CFR) with a modified transmembrane and endodomain enabling surface expression in TCR-less T or NK cells, allowing for a novel combinatorial solution between universal CAR-T or NK cells with BiTEs in an allogeneic setting. CD3-CFR signal transduction was initially investigated in TRAC knockout NFAT reporter (T-KO) Jurkat cells engineered with CD3-CFR and co-cultured with EpCAM+ target cells. When soluble EpCAM-BiTE was added to the co-culture, the observed 6.9-fold increase in NFAT activity indicated successful engagement associated with the interaction of CD3-CFR, target cells and the BiTE. CD3-CFR T-KO Jurkat cells were further modified to secrete the EpCAM-BiTE and showed increased NFAT activity, demonstrating the feasibility of self-secreting BiTE-mediated targeting through CD3-CFR signaling. We next engineered CD3-CFR expressing iPSC-derived CAR-T (iT) cells to show preserved T cell differentiation kinetics and maintained CAR activity against 1° Ag positive targets (>90% cytolysis). Importantly, while CAR-iT cells showed only background lysis of 1° Ag negative tumor cells, CD3-CFR+ CAR-iT cells were able to lyse ~99% of 1° Ag negative tumor cells with the addition of soluble EpCAM-BiTE targeting the 2° Ag. When CD3-CFR+ CAR-iT cells were further engineered to secrete the EpCAM-BiTE, CD3-CFR+ BiTE+ CAR-iT cells demonstrated superior killing of heterogenous tumors compared to CD3-CFR+ BiTE- CAR-iT cells (70% vs. 5% cytolysis). Taken together these data demonstrate for the first time that CD3 expression and BiTE engagement can be combined in a universal iPSC-derived CAR-iT cell product to overcome antigen heterogeneity and enhance efficacy in solid tumor settings. Citation Format: Eigen Peralta, Dan Lu, Mark Landon, Hui-Yi Chu, Amit Mehta, Philip Chu, Alec Witty, Tom Lee, Bahram Valamehr. Chimeric CD3 fusion receptors expressed on iPSC-derived universal TCR-less CAR-T and -NK cells synergize with bispecific engagers to enhance antitumor activity and limit antigen escape [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5513.

Published

2022

2. Abstract 1497: A unique strategy to arm iPSC-derived CAR-T cells to perform antibody-directed cellular cytotoxicity to facilitate multi-antigen targeting

Author

Shohreh Sikaroodi, Bruce Walcheck, Yijia Pan, Amanda D. Yzaguirre, Martin Hosking, Soheila Shirinbak, Angela Gentile, Jianming Wu, Bahram Valamehr, Mochtar Pribadi, Joy Grant, Philip Chu, Amit R. Mehta, Wen-I Yeh, and Anhco Nguyen

Subjects

Cancer Research, Antigen Targeting, Oncology, biology, Chemistry, biology.protein, Car t cells, Antibody, Cell-mediated cytotoxicity, Cell biology

Abstract

Although chimeric antigen receptor (CAR)-T cells have been transformational for several liquid tumors, their effectiveness in treating a variety of solid tumors has been limited in part because the heterogeneity of tumor-associated antigens found in many bulky tumors represents a major obstacle to the development and the delivery of effective CAR-T cell therapies in cancer. Here we demonstrate that iPSC-derived CAR-T (CAR-iT) cells are an ideal off-the-shelf approach that can be engineered to perform antibody-dependent cell-mediated cytotoxicity (ADCC) to facilitate multi-antigen targeting with the introduction of various monoclonal antibodies (mAbs). Under this strategy, while the CAR is equipped to predominantly target antigen 1, targeting additional tumor associated antigens through the use of various mAbs can be leveraged through ADCC. To this end, CAR-iT cells were genetically edited at the iPSC stage to uniformly express a novel high-affinity variant (158V), non-cleavable CD16A (hnCD16) Fc receptor to recognize and bind to the Fc fragment of mAbs and facilitate ADCC. When combined with therapeutic mAbs targeting HER2, EGFR, or PDL1, the cytolytic efficacy of hnCD16+ CAR-iT cells was significantly enhanced compared to parental CAR-iT cells in several tumor models, including ovarian, HER2+ breast, and triple-negative breast cancers, underscoring the flexibility of a combined CAR and ADCC – mediated targeting approach. Importantly, although both CD16A and CAR signaling share common CD3ζ pathways, simultaneous activation did not appreciably attenuate the activation and effector function of CAR-iT cells. Moreover, hnCD16+ CAR-iT cells demonstrated enhanced control in an established triple negative breast cancer solid tumor xenograft model. The control of antigenically heterogenous tumors by hnCD16+ CAR-iT cells was also significantly improved when compared to parental CAR-iT cells. To confirm selectivity and avoidance of immunoglobulin interference with functional output, various in vitro cellular cytotoxicity assays were conducted with IgG1 to confirm that hnCD16 requires crosslinking to elicit ADCC while maintaining full potentiation of CAR function. Additional in vitro and in vivo studies are ongoing and will be presented. Collectively, the data demonstrates that CAR-iT cells can be further modified with hnCD16 Fc receptor to elicit ADCC and the combination of CAR and hnCD16 is a unique approach to tackling tumor heterogeneity often found in bulky tumors. Citation Format: Martin Hosking, Soheila Shirinbak, Joy Grant, Wen-I Yeh, Yijia Pan, Mochtar Pribadi, Amit Mehta, Amanda Yzaguirre, Philip Chu, Shohreh Sikaroodi, Angela Gentile, Bruce Walcheck, Jianming Wu, Anhco Nguyen, Bahram Valamehr. A unique strategy to arm iPSC-derived CAR-T cells to perform antibody-directed cellular cytotoxicity to facilitate multi-antigen targeting [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1497.

Published

2021