Author
Listed:
- Susan P. Foy
(PACT Pharma)
- Kyle Jacoby
(PACT Pharma)
- Daniela A. Bota
(University of California)
- Theresa Hunter
(PACT Pharma)
- Zheng Pan
(PACT Pharma)
- Eric Stawiski
(PACT Pharma)
- Yan Ma
(PACT Pharma)
- William Lu
(PACT Pharma)
- Songming Peng
(PACT Pharma)
- Clifford L. Wang
(PACT Pharma)
- Benjamin Yuen
(PACT Pharma)
- Olivier Dalmas
(PACT Pharma)
- Katharine Heeringa
(PACT Pharma)
- Barbara Sennino
(PACT Pharma)
- Andy Conroy
(PACT Pharma)
- Michael T. Bethune
(PACT Pharma)
- Ines Mende
(PACT Pharma)
- William White
(PACT Pharma)
- Monica Kukreja
(PACT Pharma)
- Swetha Gunturu
(PACT Pharma)
- Emily Humphrey
(PACT Pharma)
- Adeel Hussaini
(PACT Pharma)
- Duo An
(PACT Pharma)
- Adam J. Litterman
(PACT Pharma)
- Boi Bryant Quach
(PACT Pharma)
- Alphonsus H. C. Ng
(Institute for Systems Biology)
- Yue Lu
(Institute for Systems Biology)
- Chad Smith
(PACT Pharma)
- Katie M. Campbell
(University of California, Los Angeles (UCLA))
- Daniel Anaya
(PACT Pharma)
- Lindsey Skrdlant
(PACT Pharma)
- Eva Yi-Hsuan Huang
(PACT Pharma)
- Ventura Mendoza
(PACT Pharma)
- Jyoti Mathur
(PACT Pharma)
- Luke Dengler
(PACT Pharma)
- Bhamini Purandare
(PACT Pharma)
- Robert Moot
(PACT Pharma)
- Michael C. Yi
(PACT Pharma)
- Roel Funke
(PACT Pharma)
- Alison Sibley
(PACT Pharma)
- Todd Stallings-Schmitt
(PACT Pharma)
- David Y. Oh
(University of California)
- Bartosz Chmielowski
(University of California, Los Angeles (UCLA)
Jonsson Comprehensive Cancer Center at the University of California)
- Mehrdad Abedi
(University of California Davis Comprehensive Cancer Center)
- Yuan Yuan
(City of Hope National Medical Center)
- Jeffrey A. Sosman
(Northwestern University)
- Sylvia M. Lee
(Fred Hutchinson Cancer Research Center)
- Adam J. Schoenfeld
(Weill Cornell Medical College)
- David Baltimore
(California Institute of Technology)
- James R. Heath
(Institute for Systems Biology)
- Alex Franzusoff
(PACT Pharma)
- Antoni Ribas
(University of California, Los Angeles (UCLA)
Jonsson Comprehensive Cancer Center at the University of California)
- Arati V. Rao
(PACT Pharma)
- Stefanie J. Mandl
(PACT Pharma)
Abstract
T cell receptors (TCRs) enable T cells to specifically recognize mutations in cancer cells1–3. Here we developed a clinical-grade approach based on CRISPR–Cas9 non-viral precision genome-editing to simultaneously knockout the two endogenous TCR genes TRAC (which encodes TCRα) and TRBC (which encodes TCRβ). We also inserted into the TRAC locus two chains of a neoantigen-specific TCR (neoTCR) isolated from circulating T cells of patients. The neoTCRs were isolated using a personalized library of soluble predicted neoantigen–HLA capture reagents. Sixteen patients with different refractory solid cancers received up to three distinct neoTCR transgenic cell products. Each product expressed a patient-specific neoTCR and was administered in a cell-dose-escalation, first-in-human phase I clinical trial ( NCT03970382 ). One patient had grade 1 cytokine release syndrome and one patient had grade 3 encephalitis. All participants had the expected side effects from the lymphodepleting chemotherapy. Five patients had stable disease and the other eleven had disease progression as the best response on the therapy. neoTCR transgenic T cells were detected in tumour biopsy samples after infusion at frequencies higher than the native TCRs before infusion. This study demonstrates the feasibility of isolating and cloning multiple TCRs that recognize mutational neoantigens. Moreover, simultaneous knockout of the endogenous TCR and knock-in of neoTCRs using single-step, non-viral precision genome-editing are achieved. The manufacture of neoTCR engineered T cells at clinical grade, the safety of infusing up to three gene-edited neoTCR T cell products and the ability of the transgenic T cells to traffic to the tumours of patients are also demonstrated.
Suggested Citation
Susan P. Foy & Kyle Jacoby & Daniela A. Bota & Theresa Hunter & Zheng Pan & Eric Stawiski & Yan Ma & William Lu & Songming Peng & Clifford L. Wang & Benjamin Yuen & Olivier Dalmas & Katharine Heeringa, 2023.
"Non-viral precision T cell receptor replacement for personalized cell therapy,"
Nature, Nature, vol. 615(7953), pages 687-696, March.
Handle:
RePEc:nat:nature:v:615:y:2023:i:7953:d:10.1038_s41586-022-05531-1
DOI: 10.1038/s41586-022-05531-1
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Cited by:
- Mingming Zhao & Xiaohui Cheng & Pingwen Shao & Yao Dong & Yongjie Wu & Lin Xiao & Zhiying Cui & Xuedi Sun & Chuancheng Gao & Jiangning Chen & Zhen Huang & Junfeng Zhang, 2024.
"Bacterial protoplast-derived nanovesicles carrying CRISPR-Cas9 tools re-educate tumor-associated macrophages for enhanced cancer immunotherapy,"
Nature Communications, Nature, vol. 15(1), pages 1-18, December.
- Nandini Pal Basak & Kowshik Jaganathan & Biswajit Das & Oliyarasi Muthusamy & Rajashekar M & Ritu Malhotra & Amit Samal & Moumita Nath & Ganesh MS & Amritha Prabha Shankar & Prakash BV & Vijay Pillai , 2024.
"Tumor histoculture captures the dynamic interactions between tumor and immune components in response to anti-PD1 in head and neck cancer,"
Nature Communications, Nature, vol. 15(1), pages 1-15, December.
- Derin Sevenler & Mehmet Toner, 2024.
"High throughput intracellular delivery by viscoelastic mechanoporation,"
Nature Communications, Nature, vol. 15(1), pages 1-12, December.
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