Chongyun Fang scite author profile

Purpose Using gene-disrupted allogeneic T cells as universal effector cells provides an alternative to and potentially improves current chimeric antigen receptor (CAR) T cell therapy against cancers and infectious diseases. Experimental Design The CRISPR/Cas9 system has recently emerged as a simple and efficient way for multiplex genome engineering. By combining the lentiviral delivery of CAR and CRISPR RNA electroporation to co-introduce RNA encoding the Cas9 and gRNAs targeting endogenous TCR, beta-2 microglobulin (B2M) and PD1 simultaneously, to generate gene-disrupted allogeneic CAR T cells deficient of TCR, HLA class I molecule and PD1. Results The CRISPR gene-edited CAR T cells showed potent anti-tumor activities, both in vitro and in animal models and were as potent as non-gene edited CAR T cells. In addition the TCR and HLA class I double deficient T cells had reduced alloreactivity and did not cause graft-versus-host disease. Finally, simultaneous triple genome editing by adding the disruption of PD1 led to enhanced in vivo anti-tumor activity of the gene-disrupted CART cells. Conclusions Gene-disrupted allogeneic CAR and TCR T cells could provide an alternative as a universal donor to autologous T cells, which carry difficulties and high production costs. Gene-disrupted CAR and TCR T cells with disabled checkpoint molecules may be potent effector cells against cancers and infectious diseases.

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Affinity-Tuned ErbB2 or EGFR Chimeric Antigen Receptor T Cells Exhibit an Increased Therapeutic Index against Tumors in Mice

Liu

et al. 2015

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Target-mediated toxicity is a major limitation in the development of chimeric antigen T cell receptors (CAR) for adoptive cell therapy of solid tumors. In this study, we developed a strategy to adjust the affinities of the scFv component of CAR to discriminate tumors overexpressing the target from normal tissues which express it at physiologic levels. A CAR-expressing T cell panel was generated with target antigen affinities varying over three orders of magnitude. High-affinity cells recognized target expressed at any level, including at levels in normal cells that were undetectable by flow cytometry. Affinity-tuned cells exhibited robust antitumor efficacy similar to high-affinity cells, but spared normal cells expressing physiologic target levels. The use of affinity-tuned scFvs offers a strategy to empower wider use of CAR T cells against validated targets widely overexpressed on solid tumors, including those considered undruggable by this approach.

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Regulation of Toll-like receptor–mediated inflammatory response by complement in vivo

et al. 2007

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A Chimeric Switch-Receptor Targeting PD1 Augments the Efficacy of Second-Generation CAR T Cells in Advanced Solid Tumors

et al. 2016

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Chimeric antigen receptor (CAR)-modified adoptive T-cell therapy (ATC) has been successfully applied to the treatment of hematologic malignancies, but faces many challenges in solid tumors. One major obstacle is the immune-suppressive effects induced in both naturally-occurring and genetically-modified tumor infiltrating lymphocytes (TILs) by inhibitory receptors (IRs), namely PD1. We hypothesized that interfering with PD1 signaling would augment CAR T cell activity against solid tumors. To address this possibility, we introduced a genetically-engineered switch receptor construct, comprising the truncated extracellular domain of PD1 and the transmembrane and cytoplasmic signaling domains of CD28, into CAR T-cells. We tested the effect of this supplement, “PD1CD28”, on human CAR T-cells targeting aggressive models of human solid tumors expressing relevant tumor antigens. Treatment of mice bearing large, established solid tumors with PD1CD28 CAR T-cells led to significant regression in tumor volume due to enhanced CAR TIL infiltrate, decreased susceptibility to tumor-induced hypofunction, and attenuation of IR expression compared to treatments with CAR T-cells alone or PD1 antibodies. Taken together, our findings suggest that the application of PD1CD28 to boost CAR T-cell activity is efficacious against solid tumors via a variety of mechanisms, prompting clinical investigation of this potentially promising treatment modality.

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A versatile system for rapid multiplex genome-edited CAR T cell generation

et al. 2017

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The therapeutic potential of CRISPR system has already been demonstrated in many instances and begun to overlap with the rapidly expanding field of cancer immunotherapy, especially on the production of genetically modified T cell receptor or chimeric antigen receptor (CAR) T cells. Efficient genomic disruption of multiple gene loci to generate universal donor cells, as well as potent effector T cells resistant to multiple inhibitory pathways such as PD-1 and CTLA4 is an attractive strategy for cell therapy. In this study, we accomplished rapid and efficient multiplex genomic editing, and re-directing T cells with antigen specific CAR via a one-shot CRISPR protocol by incorporation of multiple gRNAs in a CAR lentiviral vector. High efficient double knockout of endogenous TCR and HLA class I could be easily achieved to generate allogeneic universal CAR T cells. We also generated Fas-resistant universal CAR T cells by triple gene disruption. Simultaneous gene editing of four gene loci using the one-shot CRISPR protocol to generate allogeneic universal T cells deficient of both PD1 and CTLA-4 was also attempted.

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Chongyun Fang

Multiplex Genome Editing to Generate Universal CAR T Cells Resistant to PD1 Inhibition

Affinity-Tuned ErbB2 or EGFR Chimeric Antigen Receptor T Cells Exhibit an Increased Therapeutic Index against Tumors in Mice

Regulation of Toll-like receptor–mediated inflammatory response by complement in vivo

A Chimeric Switch-Receptor Targeting PD1 Augments the Efficacy of Second-Generation CAR T Cells in Advanced Solid Tumors

A versatile system for rapid multiplex genome-edited CAR T cell generation

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