Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Metabolic engineering against the arginine microenvironment enhances CAR-T cell proliferation and therapeutic activity.

Literature DB >> 32573723

Metabolic engineering against the arginine microenvironment enhances CAR-T cell proliferation and therapeutic activity.

Livingstone Fultang¹, Sarah Booth¹, Orli Yogev², Barbara Martins da Costa², Vanessa Tubb¹, Silvia Panetti¹, Victoria Stavrou¹, Ugo Scarpa¹, Andris Jankevics³, Gavin Lloyd³, Andrew Southam³, Steven P Lee¹, Warwick B Dunn³, Louis Chesler², Francis Mussai¹, Carmela De Santo¹.

Abstract

Hematological and solid cancers catabolize the semiessential amino acid arginine to drive cell proliferation. However, the resulting low arginine microenvironment also impairs chimeric antigen receptor T cells (CAR-T) cell proliferation, limiting their efficacy in clinical trials against hematological and solid malignancies. T cells are susceptible to the low arginine microenvironment because of the low expression of the arginine resynthesis enzymes argininosuccinate synthase (ASS) and ornithine transcarbamylase (OTC). We demonstrate that T cells can be reengineered to express functional ASS or OTC enzymes, in concert with different chimeric antigen receptors. Enzyme modifications increase CAR-T cell proliferation, with no loss of CAR cytotoxicity or increased exhaustion. In vivo, enzyme-modified CAR-T cells lead to enhanced clearance of leukemia or solid tumor burden, providing the first metabolic modification to enhance CAR-T cell therapies.

Entities: Chemical

Mesh：

Substances：

Year: 2020 PMID： 32573723 PMCID： PMC7565134 DOI： 10.1182/blood.2019004500

Source DB: PubMed Journal: Blood ISSN： 0006-4971 Impact factor: 22.113

25 in total

1. Preclinical Assessment of CD171-Directed CAR T-cell Adoptive Therapy for Childhood Neuroblastoma: CE7 Epitope Target Safety and Product Manufacturing Feasibility.

Authors: Annette Künkele; Agne Taraseviciute; Laura S Finn; Adam J Johnson; Carolina Berger; Olivia Finney; Cindy A Chang; Lisa S Rolczynski; Christopher Brown; Stephanie Mgebroff; Michael Berger; Julie R Park; Michael C Jensen
Journal: Clin Cancer Res Date: 2016-07-07 Impact factor: 12.531

2. Impact of Cationic Amino Acid Transporter 1 on Blood-Retinal Barrier Transport of L-Ornithine.

Authors: Yoshiyuki Kubo; Akiko Obata; Shin-ichi Akanuma; Ken-ichi Hosoya
Journal: Invest Ophthalmol Vis Sci Date: 2015-09 Impact factor: 4.799

3. Long-Term Follow-up of CD19 CAR Therapy in Acute Lymphoblastic Leukemia.

Authors: Jae H Park; Isabelle Rivière; Mithat Gonen; Xiuyan Wang; Brigitte Sénéchal; Kevin J Curran; Craig Sauter; Yongzeng Wang; Bianca Santomasso; Elena Mead; Mikhail Roshal; Peter Maslak; Marco Davila; Renier J Brentjens; Michel Sadelain
Journal: N Engl J Med Date: 2018-02-01 Impact factor: 91.245

4. Acute myeloid leukemia creates an arginase-dependent immunosuppressive microenvironment.

Authors: Francis Mussai; Carmela De Santo; Issa Abu-Dayyeh; Sarah Booth; Lynn Quek; Rosanna M McEwen-Smith; Amrana Qureshi; Francesco Dazzi; Paresh Vyas; Vincenzo Cerundolo
Journal: Blood Date: 2013-06-03 Impact factor: 22.113

Review 5. Inhibiting IDO pathways to treat cancer: lessons from the ECHO-301 trial and beyond.

Authors: Alexander J Muller; Mark G Manfredi; Yousef Zakharia; George C Prendergast
Journal: Semin Immunopathol Date: 2018-09-10 Impact factor: 9.623

6. Inhibition of arginase by CB-1158 blocks myeloid cell-mediated immune suppression in the tumor microenvironment.

Authors: Susanne M Steggerda; Mark K Bennett; Jason Chen; Ethan Emberley; Tony Huang; Julie R Janes; Weiqun Li; Andrew L MacKinnon; Amani Makkouk; Gisele Marguier; Peter J Murray; Silinda Neou; Alison Pan; Francesco Parlati; Mirna L M Rodriguez; Lee-Ann Van de Velde; Tracy Wang; Melissa Works; Jing Zhang; Winter Zhang; Matthew I Gross
Journal: J Immunother Cancer Date: 2017-12-19 Impact factor: 13.751

7. The clinical efficacy of first-generation carcinoembryonic antigen (CEACAM5)-specific CAR T cells is limited by poor persistence and transient pre-conditioning-dependent respiratory toxicity.

Authors: Fiona C Thistlethwaite; David E Gilham; Ryan D Guest; Dominic G Rothwell; Manon Pillai; Deborah J Burt; Andrea J Byatte; Natalia Kirillova; Juan W Valle; Surinder K Sharma; Kerry A Chester; Nigel B Westwood; Sarah E R Halford; Stephen Nabarro; Susan Wan; Eric Austin; Robert E Hawkins
Journal: Cancer Immunol Immunother Date: 2017-06-28 Impact factor: 6.968

8. MDSC targeting with Gemtuzumab ozogamicin restores T cell immunity and immunotherapy against cancers.

Authors: Livingstone Fultang; Silvia Panetti; Margaret Ng; Paul Collins; Suzanne Graef; Nagy Rizkalla; Sarah Booth; Richard Lenton; Boris Noyvert; Claire Shannon-Lowe; Gary Middleton; Francis Mussai; Carmela De Santo
Journal: EBioMedicine Date: 2019-08-25 Impact factor: 8.143

9. Non-targeted UHPLC-MS metabolomic data processing methods: a comparative investigation of normalisation, missing value imputation, transformation and scaling.

Authors: Riccardo Di Guida; Jasper Engel; J William Allwood; Ralf J M Weber; Martin R Jones; Ulf Sommer; Mark R Viant; Warwick B Dunn
Journal: Metabolomics Date: 2016-04-15 Impact factor: 4.290

10. Arginine auxotrophic gene signature in paediatric sarcomas and brain tumours provides a viable target for arginine depletion therapies.

Authors: Ashley Vardon; Madhumita Dandapani; Daryl Cheng; Paul Cheng; Carmela De Santo; Francis Mussai
Journal: Oncotarget Date: 2017-06-29

31 in total

Review 1. Tumour immunotherapy: lessons from predator-prey theory.

Authors: Phineas T Hamilton; Bradley R Anholt; Brad H Nelson
Journal: Nat Rev Immunol Date: 2022-05-05 Impact factor: 53.106

Review 2. Payload Delivery: Engineering Immune Cells to Disrupt the Tumour Microenvironment.

Authors: Daniel Fowler; Callum Nattress; Alba Southern Navarrete; Marta Barisa; Jonathan Fisher
Journal: Cancers (Basel) Date: 2021-11-29 Impact factor: 6.639

Review 3. Cellular kinetics: A clinical and computational review of CAR-T cell pharmacology.

Authors: Timothy Qi; Kyle McGrath; Raghuveer Ranganathan; Gianpietro Dotti; Yanguang Cao
Journal: Adv Drug Deliv Rev Date: 2022-07-06 Impact factor: 17.873

Review 4. Metabolic barriers to cancer immunotherapy.

Authors: Kristin DePeaux; Greg M Delgoffe
Journal: Nat Rev Immunol Date: 2021-04-29 Impact factor: 53.106

5. Chromatin accessibility governs the differential response of cancer and T cells to arginine starvation.

Authors: Nicholas T Crump; Andreas V Hadjinicolaou; Meng Xia; John Walsby-Tickle; Uzi Gileadi; Ji-Li Chen; Mashiko Setshedi; Lars R Olsen; I-Jun Lau; Laura Godfrey; Lynn Quek; Zhanru Yu; Erica Ballabio; Mike B Barnkob; Giorgio Napolitani; Mariolina Salio; Hashem Koohy; Benedikt M Kessler; Stephen Taylor; Paresh Vyas; James S O McCullagh; Thomas A Milne; Vincenzo Cerundolo
Journal: Cell Rep Date: 2021-05-11 Impact factor: 9.423

Review 6. Tinkering under the Hood: Metabolic Optimisation of CAR-T Cell Therapy.

Authors: Yasmin Jenkins; Joanna Zabkiewicz; Oliver Ottmann; Nicholas Jones
Journal: Antibodies (Basel) Date: 2021-04-26

Review 7. Arginine-dependent immune responses.

Authors: Adrià-Arnau Martí I Líndez; Walter Reith
Journal: Cell Mol Life Sci Date: 2021-05-26 Impact factor: 9.261