Literature DB >> 32096010

Paving the way towards universal treatment with allogenic T cells.

Michelle H Townsend1, Kelsey Bennion2, Richard A Robison2, Kim L O'Neill2.   

Abstract

With several different CAR T cell therapies under advanced phases of clinical trials, and the first FDA-approved CAR treatments in 2017 (Yescarta and Kymriah), CAR T cell therapy has become one of the most promising therapies for the treatment of certain types of cancer. This success has bred an opportunity to optimize the production of CAR T cells for easier patient access. CAR T cell therapy is a rather expensive and personalized process that requires expensive measures to collect cells from patients, engineer those cells, and re-infuse the cells into the patient with adequate quality controls at each phase. With this in mind, significant attempts at creating a "universal" CAR T cell are underway in order to create an "off-the-shelf" product that would reduce the expense and time required for traditional CAR T cell treatment. The primary obstacle facing this endeavor is avoiding graft-versus-host disease that accompanies allogeneic transplants between genetically dissimilar individuals. With the advent of CRISPR and TALEN technology, editing the genome of allogeneic cells has become very possible, and several groups have provided initial data analyzing the effects of CAR T cells that have been edited to avoid host rejection and avoid endogenous TCR alloreactivity. These engineered cells not only have to avoid GVHD but also have to retain their anti-tumor efficacy in vivo. Here, we expand on the recent efforts and strides that have been made in the design and testing of universal allogeneic CAR T cells.

Entities:  

Keywords:  Allogeneic transplant; Chimeric antigen receptors (CAR); Graft-versus-host disease (GVHD); Universal cells

Mesh:

Substances:

Year:  2020        PMID: 32096010     DOI: 10.1007/s12026-020-09119-7

Source DB:  PubMed          Journal:  Immunol Res        ISSN: 0257-277X            Impact factor:   2.829


  48 in total

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Journal:  Blood       Date:  2012-04-24       Impact factor: 22.113

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3.  Donor-derived CD19-targeted T cells cause regression of malignancy persisting after allogeneic hematopoietic stem cell transplantation.

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Journal:  Blood       Date:  2013-09-20       Impact factor: 22.113

4.  Total body irradiation and acute graft-versus-host disease: the role of gastrointestinal damage and inflammatory cytokines.

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Review 5.  MHC restricted and non-restricted killer lymphocytes.

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Journal:  Blood Rev       Date:  1990-09       Impact factor: 8.250

6.  A crucial role for antigen-presenting cells and alloantigen expression in graft-versus-leukemia responses.

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Journal:  Nat Med       Date:  2005-10-16       Impact factor: 53.440

Review 7.  [Immunosuppressive drugs in the prevention and treatment of GVHD after allogenic bone marrow transplantation].

Authors:  Nikolina Basić-Jukić; Boris Labar
Journal:  Acta Med Croatica       Date:  2003

8.  Evaluation of NIH consensus criteria for classification of late acute and chronic GVHD.

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Journal:  Blood       Date:  2009-05-21       Impact factor: 22.113

9.  Molecular remission of infant B-ALL after infusion of universal TALEN gene-edited CAR T cells.

Authors:  Waseem Qasim; Hong Zhan; Sujith Samarasinghe; Stuart Adams; Persis Amrolia; Sian Stafford; Katie Butler; Christine Rivat; Gary Wright; Kathy Somana; Sara Ghorashian; Danielle Pinner; Gul Ahsan; Kimberly Gilmour; Giovanna Lucchini; Sarah Inglott; William Mifsud; Robert Chiesa; Karl S Peggs; Lucas Chan; Farzin Farzeneh; Adrian J Thrasher; Ajay Vora; Martin Pule; Paul Veys
Journal:  Sci Transl Med       Date:  2017-01-25       Impact factor: 17.956

10.  MHC universal cells survive in an allogeneic environment after incompatible transplantation.

Authors:  Constança Figueiredo; Dirk Wedekind; Thomas Müller; Stefanie Vahlsing; Peter A Horn; Axel Seltsam; Rainer Blasczyk
Journal:  Biomed Res Int       Date:  2013-10-09       Impact factor: 3.411
View more
  8 in total

1.  Universal allogeneic CAR T cells engineered with Sleeping Beauty transposons and CRISPR-CAS9 for cancer immunotherapy.

Authors:  Jaitip Tipanee; Ermira Samara-Kuko; Thierry Gevaert; Marinee K Chuah; Thierry VandenDriessche
Journal:  Mol Ther       Date:  2022-06-16       Impact factor: 12.910

Review 2.  Balancing Quality, Cost, and Access During Delivery of Newer Cellular and Immunotherapy Treatments.

Authors:  Praveen Ramakrishnan Geethakumari; Dheepthi Perumal Ramasamy; Bhagirathbhai Dholaria; Jesús Berdeja; Ankit Kansagra
Journal:  Curr Hematol Malig Rep       Date:  2021-06-05       Impact factor: 3.952

Review 3.  Immune Checkpoints and CAR-T Cells: The Pioneers in Future Cancer Therapies?

Authors:  Negar Hosseinkhani; Afshin Derakhshani; Omid Kooshkaki; Mahdi Abdoli Shadbad; Khalil Hajiasgharzadeh; Amir Baghbanzadeh; Hossein Safarpour; Ahad Mokhtarzadeh; Oronzo Brunetti; Simon C Yue; Nicola Silvestris; Behzad Baradaran
Journal:  Int J Mol Sci       Date:  2020-11-05       Impact factor: 5.923

4.  Off-the-shelf Vδ1 gamma delta T cells engineered with glypican-3 (GPC-3)-specific chimeric antigen receptor (CAR) and soluble IL-15 display robust antitumor efficacy against hepatocellular carcinoma.

Authors:  Amani Makkouk; Xue Cher Yang; Taylor Barca; Anthony Lucas; Mustafa Turkoz; Jonathan T S Wong; Kevin P Nishimoto; Mary M Brodey; Maryam Tabrizizad; Smitha R Y Gundurao; Lu Bai; Arun Bhat; Zili An; Stewart Abbot; Daulet Satpayev; Blake T Aftab; Marissa Herrman
Journal:  J Immunother Cancer       Date:  2021-12       Impact factor: 13.751

Review 5.  Lentiviral Vectors for T Cell Engineering: Clinical Applications, Bioprocessing and Future Perspectives.

Authors:  Roman P Labbé; Sandrine Vessillier; Qasim A Rafiq
Journal:  Viruses       Date:  2021-08-02       Impact factor: 5.048

Review 6.  In-Vivo Induced CAR-T Cell for the Potential Breakthrough to Overcome the Barriers of Current CAR-T Cell Therapy.

Authors:  Tianqing Xin; Li Cheng; Chuchao Zhou; Yimeng Zhao; Zhenhua Hu; Xiaoyan Wu
Journal:  Front Oncol       Date:  2022-02-10       Impact factor: 6.244

Review 7.  Hurdles to breakthrough in CAR T cell therapy of solid tumors.

Authors:  Faroogh Marofi; Harun Achmad; Dmitry Bokov; Walid Kamal Abdelbasset; Zeid Alsadoon; Supat Chupradit; Wanich Suksatan; Siavash Shariatzadeh; Zahra Hasanpoor; Mahboubeh Yazdanifar; Navid Shomali; Farhad Motavalli Khiavi
Journal:  Stem Cell Res Ther       Date:  2022-04-01       Impact factor: 6.832

8.  CAR-NK cells from engineered pluripotent stem cells: Off-the-shelf therapeutics for all patients.

Authors:  Shi-Jiang Lu; Qiang Feng
Journal:  Stem Cells Transl Med       Date:  2021-11       Impact factor: 6.940
  8 in total

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