Adoptive Transfer of MART-1 T-Cell Receptor Transgenic Lymphocytes and Dendritic Cell Vaccination in Patients with Metastatic Melanoma
- Creators
- Chodon, Thinle
-
Baltimore, David
Abstract
Purpose: It has been demonstrated that large numbers of tumor-specific T cells for adoptive cell transfer (ACT) can be manufactured by retroviral genetic engineering of autologous peripheral blood lymphocytes and expanding them over several weeks. In mouse models, this therapy is optimized when administered with dendritic cell (DC) vaccination. We developed a short 1-week manufacture protocol to determine the feasibility, safety, and antitumor efficacy of this double cell therapy. Experimental Design: A clinical trial (NCT00910650) adoptively transferring MART-1 T-cell receptor (TCR) transgenic lymphocytes together with MART-1 peptide-pulsed DC vaccination in HLA-A2.1 patients with metastatic melanoma. Autologous TCR transgenic cells were manufactured in 6 to 7 days using retroviral vector gene transfer, and reinfused with (n = 10) or without (n = 3) prior cryopreservation. Results: A total of 14 patients with metastatic melanoma were enrolled and 9 of 13 treated patients (69%) showed evidence of tumor regression. Peripheral blood reconstitution with MART-1–specific T cells peaked within 2 weeks of ACT, indicating rapid in vivo expansion. Administration of freshly manufactured TCR transgenic T cells resulted in a higher persistence of MART-1–specific T cells in the blood as compared with cryopreserved. Evidence that DC vaccination could cause further in vivo expansion was only observed with ACT using noncryopreserved T cells. Conclusion: Double cell therapy with ACT of TCR-engineered T cells with a very short ex vivo manipulation and DC vaccines is feasible and results in antitumor activity, but improvements are needed to maintain tumor responses.
Additional Information
© 2014 American Association for Cancer Research. Received November 4, 2013; revised January 21, 2014; accepted February 17, 2014; published Online First March 14, 2014. This work was funded by the NCI grants P01 CA132681 (to D. Baltimore, J.S. Economou, O.N. Witte, A. Ribas, D.B. Kohn, and J.A. Glaspy), U54 CA119347 (to J.R. Heath and A. Ribas), P50 CA086306 (to A. Ribas), and RO1 CA129816 (to J.S. Economou), the California Institute for Regenerative Medicine New Faculty Award RN2-00902-1 (to A. Ribas), the Eli & Edythe Broad Center of Regenerative Medicine and Stem Cell Research at UCLA (to O.N. Witte and A. Ribas), the Samuel Waxman Foundation (to J.S. Economou, D. Baltimore, and O.N. Witte), the Keck Foundation (to J.S. Economou, D. Baltimore, and O.N. Witte), The Seaver Institute (to A. Ribas), the PhaseOne Foundation (to A. Ribas), the Louise Belley and Richard Schnarr Fund (to A. Ribas), the Wesley Coyle Memorial Fund (to A. Ribas), the Garcia-Corsini Family Fund (to A. Ribas), the Bila Alon Hacker Memorial Fund (to A. Ribas), the Fred L. Hartley Family Foundation (to A. Ribas), the Ruby Family Foundation (to A. Ribas), the Joy and Jerry Monkarsh Fund (to J.S. Economou), the Caltech/UCLA Joint Center for Translational Medicine (to D. Baltimore, O.N. Witte, and A. Ribas), and the Melanoma Research Alliance (to A. Ribas, D. Baltimore, and J.R. Heath). O.N. Witte is an investigator of the Howard Hughes Medical Institute. R.C. Koya was supported in part by the V Foundation-Gil Nickel Family Endowed Fellowship in Melanoma Research. The UCLA Jonsson Comprehensive Cancer Center (JCCC) Flow Cytometry Core Facility is supported by NIH awards CA-16042 and AI-28697. The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked advertisement in accordance with 18 U.S.C. Section 1734 solely to indicate this fact. Acknowledgments: The authors thank Steven A. Rosenberg, Richard Morgan, Laura Johnson, and Mark Dudley (all from the NCI Surgery Branch, Bethesda, MD) for their guidance in establishing the TCR-engineered ACT protocol at UCLA and allowing access to their clinical grade retroviral vectormaster cell bank. They also acknowledge the contributions of Erika von Euw, Joanne Cox, and Narsis Attar in some of the cell therapy preparations. Authors' Contributions: Conception and design: T. Chodon, B. Chmielowski, R.C. Koya, D.W. Gjertson, B. Mukherji, L. Yang, J.A. Zack, O.N. Witte, D. Baltimore, J.S. Economou, A. Ribas Development of methodology: T. Chodon, B. Chmielowski, R.C. Koya, C.G. Radu, D.W. Gjertson, A.J. Cochran, K. Cornetta, B. Mukherji, L. Yang, D. Baltimore, A. Ribas Acquisition of data (provided animals, acquired and managed patients, provided facilities, etc.): T. Chodon, B. Comin-Anduix, B. Chmielowski, R.C. Koya, Z. Wu, M. Auerbach, C. Ng, E. Avramis, T.A. McCannel, A. Ishiyama, J. Czernin, K. Cornetta, D.J.L. Wong, P. Kaplan-lefko, O. Hamid, W. Samlowski, P.A. Cohen, G.A. Daniels, J.R. Heath, J.A. Glaspy, A. Ribas Analysis and interpretation of data (e.g., statistical analysis, biostatistics, computational analysis): T. Chodon, B. Comin-Anduix, B. Chmielowski, R.C. Koya, M. Auerbach, E. Avramis, J. Czernin, X. Wang, D.W. Gjertson, A.J. Cochran, J.R. Heath, J.A. Glaspy, J.S. Economou, A. Ribas Writing, review, and/or revision of the manuscript: T. Chodon, B. Chmielowski, R.C. Koya, M. Auerbach, E. Avramis, T.A. McCannel, J. Czernin, X.Wang, A.J. Cochran, K. Cornetta, W. Samlowski, G.A. Daniels, J.A. Zack, D.B. Kohn, D. Baltimore, A. Ribas Administrative, technical, or material support (i.e., reporting or organizing data, constructing databases): T. Chodon, Z. Wu, E. Avramis, E. Seja, A. Villanueva, T.A. McCannel, P. Kaplan-lefko, O.N. Witte, D. Baltimore, A. Ribas Study supervision: T. Chodon, B. Chmielowski, R.C. Koya, A.J. Cochran, J.S. Economou, A. Ribas.Attached Files
Accepted Version - nihms-574017.pdf
Supplemental Material - FIg4.pdf
Supplemental Material - Fig1.pdf
Supplemental Material - Fig2.pdf
Supplemental Material - Fig3.pdf
Supplemental Material - Fig5.pdf
Supplemental Material - Fig6.pdf
Supplemental Material - Fig7.pdf
Supplemental Material - Fig8.pdf
Supplemental Material - Fig9.pdf
Supplemental Material - MetsFigLegsTab1.pdf
Files
| Name | Size | Download all |
|---|---|---|
|
md5:8eb0acd01c935d7370abc54f839aa483
|
128.8 kB | Preview Download |
|
md5:e95a3ca93b42be52668540233a36c066
|
2.7 MB | Preview Download |
|
md5:c562c7ac260165a8779a823f69fd467a
|
248.8 kB | Preview Download |
|
md5:230adb062074980687351d57715bda9d
|
82.5 kB | Preview Download |
|
md5:da78f0ad66d16ea6e5c7ed5e7c2077b0
|
477.9 kB | Preview Download |
|
md5:b300b7211848670f25059a3017c798c0
|
128.9 kB | Preview Download |
|
md5:7e4765e7455d6ab60ffdcf12c59c799f
|
65.2 kB | Preview Download |
|
md5:722c57220d5c69c949b5a40856f4d871
|
192.9 kB | Preview Download |
|
md5:460973c783e6da3bbaa59afcebbf2afa
|
283.6 kB | Preview Download |
|
md5:9b5a9954e96ae52c7710ad456b81f33c
|
134.6 kB | Preview Download |
|
md5:6c5d1d2a18590185e48fdf44a58db0e4
|
148.6 kB | Preview Download |
Additional details
- PMCID
- PMC4070853
- Eprint ID
- 46269
- DOI
- 10.1158/1078-0432.CCR-13-3017
- Resolver ID
- CaltechAUTHORS:20140613-144829921
- NIH
- P01 CA132681
- NIH
- U54 CA119347
- NIH
- P50 CA086306
- NIH
- RO1 CA129816
- California Institute for Regenerative Medicine (CIRM)
- RN2-00902-1
- UCLA Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research
- Samuel Waxman Foundation
- W. M. Keck Foundation
- Seaver Institute
- PhaseOne Foundation
- Louise Belley and Richard Schnarr Fund
- Wesley Coyle Memorial Fund
- Garcia-Corsini Family Fund
- Bila Alon Hacker Memorial Fund
- Fred L. Hartley Family Foundation
- Ruby Family Foundation
- Joy and Jerry Monkarsh Fund
- Caltech/UCLA Joint Center for Translational Medicine
- Melanoma Research Alliance
- V Foundation-Gil Nickel Family Endowed Fellowship in Melanoma Research
- NIH
- CA-16042
- NIH
- AI-28697
- National Cancer Institute
- Created
-
2014-06-13Created from EPrint's datestamp field
- Updated
-
2021-11-10Created from EPrint's last_modified field