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2. Sensitive bispecific chimeric T cell receptors for cancer therapy.

Author

Simon S, Bugos G, Prins R, Rajan A, Palani A, Heyer K, Stevens A, Zeng L, Thompson K, Price JP, Kluesner MK, Jaeger-Ruckstuhl C, Shabaneh TB, Olson JM, Su X, and Riddell SR

Abstract

The expression of a synthetic chimeric antigen receptor (CAR) to redirect antigen specificity of T cells is transforming the treatment of hematological malignancies and autoimmune diseases [1-7]. In cancer, durable efficacy is frequently limited by the escape of tumors that express low levels or lack the target antigen [8-12]. These clinical results emphasize the need for immune receptors that combine high sensitivity and multispecificity to improve outcomes. Current mono- and bispecific CARs do not faithfully recapitulate T cell receptor (TCR) function and require high antigen levels on tumor cells for recognition [13-17]. Here, we describe a novel synthetic chimeric TCR (ChTCR) that exhibits superior antigen sensitivity and is readily adapted for bispecific targeting. Bispecific ChTCRs mimic TCR structure, form classical immune synapses, and exhibit TCR-like proximal signaling. T cells expressing Bi-ChTCRs more effectively eliminated tumors with heterogeneous antigen expression in vivo compared to T cells expressing optimized bispecific CARs. The Bi-ChTCR architecture is resilient and can be designed to target multiple B cell lineage and multiple myeloma antigens. Our findings identify a broadly applicable approach for engineering T cells to target hematologic malignancies with heterogeneous antigen expression, thereby overcoming the most frequent mechanism of relapse after current CAR T therapies., Competing Interests: Competing Interests: S.S., G.B. and S.R.R. are inventors on a patent (FHCC: 21–126-WO-PCT | App No. PCT/US2023/066466| COMPOSITIONS AND METHODS FOR CELLULAR IMMUNOTHERAPY) filed by Fred Hutchinson Cancer Center and related to this work. S.R.R. was a founder, has served as an advisor, and has patents licensed to Juno Therapeuwcs; S.R.R is a founder of and holds equity in Lyell Immunopharma and has served on the advisory boards for Adapwve Biotechnologies, Outpace Bio and Nohla.

Published
2024
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3. Signaling via a CD27-TRAF2-SHP-1 axis during naive T cell activation promotes memory-associated gene regulatory networks.

Author

Jaeger-Ruckstuhl CA, Lo Y, Fulton E, Waltner OG, Shabaneh TB, Simon S, Muthuraman PV, Correnti CE, Newsom OJ, Engstrom IA, Kanaan SB, Bhise SS, Peralta JMC, Ruff R, Price JP, Stull SM, Stevens AR, Bugos G, Kluesner MG, Voillet V, Muhunthan V, Morrish F, Olson JM, Gottardo R, Sarthy JF, Henikoff S, Sullivan LB, Furlan SN, and Riddell SR

Subjects
TNF Receptor-Associated Factor 2 genetics, TNF Receptor-Associated Factor 2 metabolism, Signal Transduction, Lymphocyte Activation, Receptors, Antigen, T-Cell metabolism, Tumor Necrosis Factor Receptor Superfamily, Member 7 genetics, Tumor Necrosis Factor Receptor Superfamily, Member 7 metabolism, CD27 Ligand genetics, CD27 Ligand metabolism, CD8-Positive T-Lymphocytes, CD28 Antigens metabolism, Gene Regulatory Networks
Abstract

The interaction of the tumor necrosis factor receptor (TNFR) family member CD27 on naive CD8 + T (Tn) cells with homotrimeric CD70 on antigen-presenting cells (APCs) is necessary for T cell memory fate determination. Here, we examined CD27 signaling during Tn cell activation and differentiation. In conjunction with T cell receptor (TCR) stimulation, ligation of CD27 by a synthetic trimeric CD70 ligand triggered CD27 internalization and degradation, suggesting active regulation of this signaling axis. Internalized CD27 recruited the signaling adaptor TRAF2 and the phosphatase SHP-1, thereby modulating TCR and CD28 signals. CD27-mediated modulation of TCR signals promoted transcription factor circuits that induced memory rather than effector associated gene programs, which are induced by CD28 costimulation. CD27-costimulated chimeric antigen receptor (CAR)-engineered T cells exhibited improved tumor control compared with CD28-costimulated CAR-T cells. Thus, CD27 signaling during Tn cell activation promotes memory properties with relevance to T cell immunotherapy., Competing Interests: Declaration of interests C.A.J.-R., C.E.C., and S.R.R. are inventors on a patent (“engineered trimeric CD70 proteins and uses thereof”; WO2021072127A3) filed by Fred Hutchinson Cancer Center and licensed by Lyell Immunopharma. S.R.R. was a founder, has served as an advisor, and has patents licensed to Juno Therapeutics; S.R.R is a founder of and holds equity in Lyell Immunopharma and has served on the advisory boards for Adaptive Biotechnologies and Nohla., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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4. Synthetic HLA-independent T cell receptors for cancer immunotherapy.

Author

Simon S, Bugos G, and Riddell SR

Subjects
Antibodies, Humans, Immunotherapy, Receptors, Antigen, T-Cell genetics, Immunotherapy, Adoptive, Neoplasms genetics, Neoplasms therapy
Abstract

CAR T cells are remarkably effective in hematologic malignancies, but tumor cells expressing low antigen levels can escape elimination. In Nature Medicine, Mansilla-Soto et al. design new chimeric receptors that link the variable regions of antibodies directly to T cell receptor chains and recognize tumor cells with improved antigen sensitivity., Competing Interests: Declaration of interests S.R.R. is a founder of Juno Therapeutics, now Juno/Bristol Myers Squibb, and a founder of and advisor to Lyell Immunopharma. S.R.R. has patents related to the field of chimeric antigen receptor-modified T cells and their use in immunotherapy., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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5. Synthetic receptors for logic gated T cell recognition and function.

Author

Simon S, Bugos G, Salter AI, and Riddell SR

Subjects
Antigens metabolism, Humans, Immunotherapy, Adoptive, Receptors, Antigen, T-Cell metabolism, T-Lymphocytes, Neoplasms, Receptors, Artificial metabolism
Abstract

Adoptive cell therapy with T cells engineered with customized receptors that redirect antigen specificity to cancer cells has emerged as an effective therapeutic approach for many malignancies. Toxicity due to on target or off target effects, antigen heterogeneity on cancer cells, and acquired T cell dysfunction have been identified as barriers that can hinder successful therapy. This review will discuss recent advances in T cell engineering that have enabled the application of logic gates in T cells that can mimic the integration of natural signaling pathways and act in a cell intrinsic or extrinsic fashion to precisely target tumor cells and regulate effector functions, potentially overcoming these barriers to effective therapy., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2022
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6. Expression of a TMC6-TMC8-CIB1 heterotrimeric complex in lymphocytes is regulated by each of the components.

Author

Wu CJ, Li X, Sommers CL, Kurima K, Huh S, Bugos G, Dong L, Li W, Griffith AJ, and Samelson LE

Subjects
Animals, Calcium-Binding Proteins genetics, Humans, Jurkat Cells, Keratinocytes cytology, Keratinocytes metabolism, Membrane Proteins genetics, Mice, Multiprotein Complexes genetics, Proteolysis, T-Lymphocytes cytology, Ubiquitination, Calcium-Binding Proteins metabolism, Membrane Proteins metabolism, Multiprotein Complexes metabolism, T-Lymphocytes metabolism
Abstract

The TMC genes encode a set of homologous transmembrane proteins whose functions are not well understood. Biallelic mutations in either TMC6 or TMC8 are detected in more than half of cases of the pre-malignant skin disease epidermodysplasia verruciformis (EV). It is controversial whether EV induced by mutations in TMC6 or TMC8 originates from keratinocyte or lymphocyte defects. Quantification of TMC6 and TMC8 RNA levels in various organs revealed that lymphoid tissues have the highest levels of expression of both genes, and custom antibodies confirmed protein expression in mouse lymphocytes. To study the function of these proteins we generated mice with targeted deletion mutant alleles of Tmc6 or Tmc8 Either TMC6 or TMC8 deficiency induced a reduction in apparent molecular weight and/or amount of the other TMC molecule. Co-immunoprecipitation experiments indicated that TMC6 and TMC8 formed a protein complex in mouse and human T cells. MS and biochemical analysis demonstrated that TMC6 and TMC8 additionally interacted with the CIB1 protein to form TMC6-TMC8-CIB1 trimers. We demonstrated that TMC6 and TMC8 regulated CIB1 levels by protecting CIB1 from ubiquitination and proteasomal degradation. Reciprocally, CIB1 was needed for stabilizing TMC6 and TMC8 levels. These results suggest why inactivating mutations in any of the three human genes leads to similar clinical presentations. We also demonstrated that TMC6 and TMC8 levels are drastically lower and the proteins are less active in regulating CIB1 in keratinocytes than in T cells. Our study suggests that defects in lymphocytes may contribute to the etiology and pathogenesis of EV., Competing Interests: Conflict of interest—The authors declare that they have no conflicts of interest with the contents of this article.

Published
2020
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7. AbSeq Protocol Using the Nano-Well Cartridge-Based Rhapsody Platform to Generate Protein and Transcript Expression Data on the Single-Cell Level.

Author

Erickson JR, Mair F, Bugos G, Martin J, Tyznik AJ, Nakamoto M, Mortimer S, and Prlic M

Subjects
Antibodies immunology, Gene Expression genetics, High-Throughput Nucleotide Sequencing methods, Proteins genetics, Proteins immunology, Proteomics methods, Sequence Analysis, RNA methods, Transcriptome genetics, Gene Expression Profiling methods, Proteins analysis, Single-Cell Analysis methods
Abstract

By including oligonucleotide-labeled antibodies into high-throughput single-cell RNA-sequencing protocols, combined transcript and protein expression data can be acquired on the single-cell level. Here, we describe a protocol for the combined analysis of over 40 proteins and 400 genes on over 10 4 cells using the nano-well based Rhapsody platform. We also include a workflow for sample multiplexing, which uniquely identifies the initial source of cells (such as tissue type or donor) in the downstream analysis after upstream pooling. For complete information on the use and execution of this protocol, please refer to Mair et al. (2020)., Competing Interests: DECLARATION OF INTERESTS J.R.E., F.M. G.B., and M.P. declare no competing interests. J.M., A.J.T., S.M., and M.N. are employees of BD Biosciences.

Published
2020
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8. Genomics-Driven Immunoproteomics: An Integrative Platform to Uncover Important Biomarkers for Human Diseases.

Author

Giri R, Qendro V, Rani P, Jepchumba C, Bugos G, Stadler V, and Han DK

Subjects
Autoimmune Diseases metabolism, High-Throughput Nucleotide Sequencing, Humans, Biomarkers analysis, Proteomics methods
Abstract

Genomics-driven immunoproteomics (GDI) is a platform that helps identify antigenic protein targets of mutations and other deoxyribonucleic acid (DNA) variations that are commonly associated with pathological states. This platform utilizes data generated from deep sequencing of exomic DNA or ribonucleic acid (RNA) as input to synthesize mutant peptides into microarrays, which then can be used to detect antigenic proteins that invoke immune response in patients. The technology has been used to detect antigenic targets of multiple sclerosis, an autoimmune disease [1], and cancer to identify mutant proteins that invoke immune response in breast cancer patients [2]. This technology has many potential applications to select genomic changes that are specifically recognized by the immune system in a rapid and efficient manner.

Published
2019
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9. Discovery of putative breast cancer antigens using an integrative platform of genomics-driven immunoproteomics.

Author

Qendro V, Lundgren DH, Palczewski S, Hegde P, Stevenson C, Perpetua L, Latifi A, Merriman J, Bugos G, and Han DK

Subjects
Antigens, Neoplasm genetics, Antigens, Neoplasm immunology, Breast Neoplasms genetics, Female, High-Throughput Nucleotide Sequencing, Humans, Peptide Fragments genetics, Peptide Fragments immunology, Receptors, Antigen, T-Cell genetics, Receptors, Antigen, T-Cell immunology, Antigens, Neoplasm metabolism, Breast Neoplasms immunology, Breast Neoplasms metabolism, Genomics methods, Peptide Fragments metabolism, Polymorphism, Single Nucleotide, Receptors, Antigen, T-Cell metabolism
Abstract

Recent advances in cancer immuno-therapeutics such as checkpoint inhibitors, chimeric antigen-receptor T cells, and tumor infiltrating T cells (TIL) are now significantly impacting cancer patients in a positive manner. Although very promising, reports indicate no more than 25% of cases result in complete remission. One of the limitations of these treatments is the identity of putative cancer antigens in each patient, as it is technically challenging to identify cancer antigens in a rapid fashion. Thus, identification of cancer antigens followed by targeted treatment will increase the efficacy of cancer immunotherapies. To achieve this goal, a combined technologies platform of deep genomic sequencing and personalized immune assessment was devised, termed Genomics Driven Immunoproteomics (GDI). Using this technological platform, we report the discovery of 149 tumor antigens from human breast cancer patients. Significant number of these putative cancer antigens arise from single nucleotide variants (SNVs), as well as insertions and deletions that results into frame-shift mutations. We propose a general model of anti-cancer immunity and suggest that the GDI platform may help identify patient-specific tumor antigens in a timely fashion for precision immunotherapies., (© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2017
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