Literature DB >> 26548533

T-cell receptor gene therapy--ready to go viral?

Terhi Karpanen1, Johanna Olweus2.   

Abstract

T lymphocytes can be redirected to recognize a tumor target and harnessed to combat cancer by genetic introduction of T-cell receptors of a defined specificity. This approach has recently mediated encouraging clinical responses in patients with cancers previously regarded as incurable. However, despite the great promise, T-cell receptor gene therapy still faces a multitude of obstacles. Identification of epitopes that enable effective targeting of all the cells in a heterogeneous tumor while sparing normal tissues remains perhaps the most demanding challenge. Experience from clinical trials has revealed the dangers associated with T-cell receptor gene therapy and highlighted the need for reliable preclinical methods to identify potentially hazardous recognition of both intended and unintended epitopes in healthy tissues. Procedures for manufacturing large and highly potent T-cell populations can be optimized to enhance their antitumor efficacy. Here, we review the current knowledge gained from preclinical models and clinical trials using adoptive transfer of T-cell receptor-engineered T lymphocytes, discuss the major challenges involved and highlight potential strategies to increase the safety and efficacy to make T-cell receptor gene therapy a standard-of-care for large patient groups.
Copyright © 2015 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Cancer; Gene therapy; Immunotherapy; T cell; T-cell receptor

Mesh:

Substances:

Year:  2015        PMID: 26548533      PMCID: PMC5528733          DOI: 10.1016/j.molonc.2015.10.006

Source DB:  PubMed          Journal:  Mol Oncol        ISSN: 1574-7891            Impact factor:   6.603


  238 in total

1.  T cells raised against allogeneic HLA-A2/CD20 kill primary follicular lymphoma and acute lymphoblastic leukemia cells.

Authors:  Ingerid Weum Abrahamsen; Synneva Kjellevoll; Margrethe Greve-Isdahl; Nadia Mensali; Sébastien Wälchli; Shraddha Kumari; Beate Fossum Loland; Torstein Egeland; Arne Kolstad; Johanna Olweus
Journal:  Int J Cancer       Date:  2011-08-12       Impact factor: 7.396

2.  T cell metabolism. The protein LEM promotes CD8⁺ T cell immunity through effects on mitochondrial respiration.

Authors:  Isobel Okoye; Lihui Wang; Katharina Pallmer; Kirsten Richter; Takahuru Ichimura; Robert Haas; Josh Crouse; Onjee Choi; Dean Heathcote; Elena Lovo; Claudio Mauro; Reza Abdi; Annette Oxenius; Sophie Rutschmann; Philip G Ashton-Rickardt
Journal:  Science       Date:  2015-04-16       Impact factor: 47.728

3.  A critical role of T cell antigen receptor-transduced MHC class I-restricted helper T cells in tumor protection.

Authors:  Emma C Morris; Aristotle Tsallios; Gavin M Bendle; Shao-An Xue; Hans J Stauss
Journal:  Proc Natl Acad Sci U S A       Date:  2005-05-20       Impact factor: 11.205

4.  Acquisition of full effector function in vitro paradoxically impairs the in vivo antitumor efficacy of adoptively transferred CD8+ T cells.

Authors:  Luca Gattinoni; Christopher A Klebanoff; Douglas C Palmer; Claudia Wrzesinski; Keith Kerstann; Zhiya Yu; Steven E Finkelstein; Marc R Theoret; Steven A Rosenberg; Nicholas P Restifo
Journal:  J Clin Invest       Date:  2005-06       Impact factor: 14.808

5.  TLR5 Ligand-Secreting T Cells Reshape the Tumor Microenvironment and Enhance Antitumor Activity.

Authors:  Degui Geng; Sabina Kaczanowska; Alexander Tsai; Kenisha Younger; Augusto Ochoa; Aaron P Rapoport; Sue Ostrand-Rosenberg; Eduardo Davila
Journal:  Cancer Res       Date:  2015-03-20       Impact factor: 12.701

6.  Central memory self/tumor-reactive CD8+ T cells confer superior antitumor immunity compared with effector memory T cells.

Authors:  Christopher A Klebanoff; Luca Gattinoni; Parizad Torabi-Parizi; Keith Kerstann; Adela R Cardones; Steven E Finkelstein; Douglas C Palmer; Paul A Antony; Sam T Hwang; Steven A Rosenberg; Thomas A Waldmann; Nicholas P Restifo
Journal:  Proc Natl Acad Sci U S A       Date:  2005-06-24       Impact factor: 11.205

7.  Correction of multi-gene deficiency in vivo using a single 'self-cleaving' 2A peptide-based retroviral vector.

Authors:  Andrea L Szymczak; Creg J Workman; Yao Wang; Kate M Vignali; Smaroula Dilioglou; Elio F Vanin; Dario A A Vignali
Journal:  Nat Biotechnol       Date:  2004-04-04       Impact factor: 54.908

8.  Restricted MHC-peptide repertoire predisposes to autoimmunity.

Authors:  Nadezda N Logunova; Christophe Viret; Leonid A Pobezinsky; Sara A Miller; Dmitri B Kazansky; John P Sundberg; Alexander V Chervonsky
Journal:  J Exp Med       Date:  2005-07-04       Impact factor: 14.307

9.  Use of B cell-bound HLA-A2 class I monomers to generate high-avidity, allo-restricted CTLs against the leukemia-associated protein Wilms tumor antigen.

Authors:  Philip Savage; Liquan Gao; Kevin Vento; Pam Cowburn; Stephen Man; Neil Steven; Graham Ogg; Andrew McMichael; Agamemnon Epenetos; Els Goulmy; Hans J Stauss
Journal:  Blood       Date:  2004-02-26       Impact factor: 22.113

10.  Cyclophosphamide-facilitated adoptive immunotherapy of an established tumor depends on elimination of tumor-induced suppressor T cells.

Authors:  R J North
Journal:  J Exp Med       Date:  1982-04-01       Impact factor: 14.307
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  16 in total

Review 1.  Current treatment options of T cell-associated immunotherapy in multiple myeloma.

Authors:  Hailing Liu; Yunbao Pan; Shan Meng; Wanggang Zhang; Fuling Zhou
Journal:  Clin Exp Med       Date:  2017-01-24       Impact factor: 3.984

2.  Targeting B-cell neoplasia with T-cell receptors recognizing a CD20-derived peptide on patient-specific HLA.

Authors:  Nadia Mensali; Fan Ying; Vincent Oei Yi Sheng; Weiwen Yang; Even Walseng; Shraddha Kumari; Lars-Egil Fallang; Arne Kolstad; Wolfgang Uckert; Karl Johan Malmberg; Sébastien Wälchli; Johanna Olweus
Journal:  Oncoimmunology       Date:  2016-02-18       Impact factor: 8.110

Review 3.  Immunostimulatory biomaterials to boost tumor immunogenicity.

Authors:  Oluwaseyi T Shofolawe-Bakare; Larry D Stokes; Mehjabeen Hossain; Adam E Smith; Thomas A Werfel
Journal:  Biomater Sci       Date:  2020-09-02       Impact factor: 6.843

Review 4.  T-cell receptor gene therapy--ready to go viral?

Authors:  Terhi Karpanen; Johanna Olweus
Journal:  Mol Oncol       Date:  2015-10-20       Impact factor: 6.603

Review 5.  Cancer immunotherapy: Strategies for personalization and combinatorial approaches.

Authors:  Vishwanath Sathyanarayanan; Sattva S Neelapu
Journal:  Mol Oncol       Date:  2015-10-23       Impact factor: 6.603

Review 6.  Acquired resistance to cancer immunotherapy.

Authors:  Arianna Draghi; Christopher Aled Chamberlain; Andrew Furness; Marco Donia
Journal:  Semin Immunopathol       Date:  2018-07-02       Impact factor: 9.623

7.  Landscape mapping of shared antigenic epitopes and their cognate TCRs of tumor-infiltrating T lymphocytes in melanoma.

Authors:  Kenji Murata; Munehide Nakatsugawa; Muhammed A Rahman; Linh T Nguyen; Douglas G Millar; David T Mulder; Kenji Sugata; Hiroshi Saijo; Yukiko Matsunaga; Yuki Kagoya; Tingxi Guo; Mark Anczurowski; Chung-Hsi Wang; Brian D Burt; Dalam Ly; Kayoko Saso; Alexandra Easson; David P Goldstein; Michael Reedijk; Danny Ghazarian; Trevor J Pugh; Marcus O Butler; Tak W Mak; Pamela S Ohashi; Naoto Hirano
Journal:  Elife       Date:  2020-04-21       Impact factor: 8.140

Review 8.  Optimizing T-cell receptor gene therapy for hematologic malignancies.

Authors:  Emma C Morris; Hans J Stauss
Journal:  Blood       Date:  2016-05-20       Impact factor: 25.476

Review 9.  Safety and Tolerability of Adoptive Cell Therapy in Cancer.

Authors:  Benita Wolf; Stefan Zimmermann; Caroline Arber; Melita Irving; Lionel Trueb; George Coukos
Journal:  Drug Saf       Date:  2019-02       Impact factor: 5.228

Review 10.  Engineering Approaches in Human Gamma Delta T Cells for Cancer Immunotherapy.

Authors:  Jonathan Fisher; John Anderson
Journal:  Front Immunol       Date:  2018-06-26       Impact factor: 7.561
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