PO.IM01.08 · 免疫学

Development of T cell receptor (TCR) based cellular therapy for fibrolamellar HCC uncovers role of TCR in CD4 T cell differentiation

海报缩略图:Development of T cell receptor (TCR) based cellular therapy for fibrolamellar HCC uncovers role of TCR in CD4 T cell differentiation
编号 5620 展板 12 时间 4/21 02:00–05:00 区域 Section 9 主讲 Kayla Bendinelli, BS
分会场 TCR and Autologous T Cell Therapies
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作者与单位

Kayla J. Bendinelli1, Allison M. Kirk2, Marina Baretti3, Abigail M. Gottschall1, Heng-Chung Kung1, Jeric Peter Hernandez4, Waqar Arif3, Julie Nauroth3, Jennifer Durham3, Christopher Thoburn3, Amanda Huff3, Neeha Zaidi5, Alexei Hernandez3, Hassan Jamaleddine6, Timothy N. West6, Justin McCallen5, George Coukos7, Alexandre Harari8, Challice L. Bonifant3, Elizabeth Jaffee3, Won Jin Ho3, Grégoire Altan-Bonnet6, Paul G. Thomas9, Mark Yarchoan10

1Johns Hopkins University School of Medicine, Baltimore, MD,2Department of Host-Microbe Interactions, St. Jude Children’s Research Hospital, Memphis, TN,3Johns Hopkins University, Baltimore, MD,4JOHNS HOPKINS UNIVERSITY, Baltimore, MD,5Oncology, Johns Hopkins Hospital, Baltimore, MD,6National Cancer Institute, Bethesda, MD,7UNIL University of Lausanne, Lausanne, Switzerland,8Harari (Individual), Lausanne, Switzerland,9Fred Hutchinson Cancer Center, Seattle, WA,10Sidney Kimmel Comprehensive Cancer Center, Baltimore, MD

摘要 Abstract

Background: Fibrolamellar carcinoma (FLC) is a rare and often lethal liver cancer that primarily affects children and young adults. There is no approved systemic therapy for FLC. The FLC transcriptome is defined by an in-frame fusion of exon 1 of DNAJB1 with exons 2-10 of PRKACA , resulting in expression of the chimeric oncoprotein DNAJ-PKAc. Direct pharmacologic inhibition of this oncoprotein has been infeasible due to unacceptable on-target toxicity. However, the shared, tumor-specific expression of DNAJ-PKAc presents an opportunity for neoantigen-targeted immunotherapy. Methods: We are conducting an ongoing clinical trial of a peptide vaccine targeting DNAJ-PKAc in combination with immune checkpoint inhibitors. We used single-cell sequencing and functional assays to identify DNAJ-PKAc-specific T cell receptors (TCRs) from peptide-expanded peripheral blood cells of trial participants. We characterized their HLA restriction, avidity, cytotoxicity, cytokine profiles, and differentiation phenotypes using co-culture systems. Results: We identified seven CD4⁺ TCRs that recognize DNAJ-PKAc in the context of HLA-DRB1*13:01 (n=2) or HLA-DRB3*01:01 (n=5). When introduced into healthy donor T cells and co-cultured with tumor cells expressing the corresponding HLA allele, these TCRs exhibited variable functional avidity, cytokine production, differentiation, and cytotoxic activity against DNAJ-PKAc-pulsed targets. Among them, JHU12-TCR2 ( HLA-DRB3*01:01-restricted ) mediated the strongest cytokine production and tumor cell killing despite only moderate avidity. Consistent with this, JHU12-TCR2 showed the greatest in vivo expansion in the original patient, who achieved a near-complete response to immunotherapy. In contrast, a fusion-specific TCR identified from a non-responder, JHU8-TCR2, that shares sequence similarities and clusters with JHU12-TCR2, demonstrated limited cytotoxicity in vitro . Interestingly, although all TCRs recognized the same antigen in matched donor T cells, they drove divergent helper T cell differentiation programs. For example, JHU12-TCR2 favored Th1/Th17 polarization with minimal Treg induction, whereas JHU8-TCR2 promoted a Th2-biased phenotype. Conclusions: We identified and functionally characterized multiple CD4⁺ TCRs specific for the DNAJ-PKAc oncoprotein, highlighting their potential utility as the basis for TCR-based therapy in FLC. A clinical trial of JHU12-TCR2-based TCR therapy for patients with FLC and HLA-DRB3*01:01 is in development. These findings also suggest that variation in vaccine-induced TCR repertoires may contribute to differences in clinical response, and that intrinsic biophysical or signaling properties of individual TCRs can shape the differentiation fate of CD4⁺ T cells expressing them.
利益披露 Disclosure
K. J. Bendinelli, None.. A. M. Kirk, None.. A. M. Gottschall, None.. H. Kung, None.. H. Jamaleddine, None.. T. N. West, None.. J. McCallen, None. P. G. Thomas, Merck Travel, Other. Illumina Travel. J&J Travel. Pfizer Travel. Sanofi Travel. 10x Genomics Travel. ImmunoScape Other, Scientific advisory board. Shennon Bio Other, Scientific advisory board. CytoAgents Other, Scientific advisory board.

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