CAR T-Cell Therapy: Genetically Programming the Immune System to Attack Malignant Cells – Pharmacy Times
By daniellenierenberg
CAR T-Cell Therapy: Genetically Programming the Immune System to Attack Malignant Cells
T cells and B cells are 2 primary cell types in our adaptive immune system, the source of immunological memory protecting us from subsequent pathogen exposure. B cells secrete pathogen-specific antibodies, which neutralize pathogens directly, or tag them for attack by other immune cells. T cells destroy pathogenic cells directly as well as secrete cytokines to attract additional immune cells.
Chimeric antigen receptor (CAR) T cells are patient derived T cells genetically manipulated to express an artificial transmembrane receptor. The artificial receptor is engineered from modular parts to bind to a surface protein (also called an antigen) on malignant cells and activate the T cell via engineered T cell signaling switches on the CAR.
Current FDA-approved CAR-T cell therapies express CARs recognizing CD19, which is expressed on the surface of almost all B cells, making these therapies specific for B-cell malignancies. Following binding with a CD19-expressing cell, the CAR T cell is activated to proliferate, eliminate the CD19-expressing cell, and persist within the patient.
Tisagenlecleucel (Kymriah, Novartis) is approved to treat pediatric and young adult patients (up to age 25) with relapsed or refractory (R/R) B-cell acute lymphoblastic leukemia (R/R ALL, ELIANA trial) and adult patients with R/R diffuse large B-cell lymphoma (R/R DLBCL, JULIET trial) after 2 or more lines of systemic therapy. Axicabtagene ciloleucel (Yescarta, Kite Pharma) is approved for adult patients with R/R large B-cell lymphoma (R/R DLBCL, ZUMA-1 trial, NCT02348216) after 2 or more lines of systemic therapy. There are approximately 700 new cases of pediatric and young adult R/R ALL annually in the United States. New cases of R/R DLBCL are approximately 7000 annually in the United States.
CARs can be engineered to recognize virtually any cell surface antigen and can be expressed in a variety of immune cells, suggesting that product development will result in many modular CAR units with vast application versatility. Many different antigen and cell type combinations are already currently in development to address several cancers, such as CAR T cells for pancreatic cancer (NCT03323944).
The first step in creating these personalized genemodified cell therapies is collecting patient lymphocytes via leukapheresis at a clinic or infusion center. Lymphocytes include T cells, B cells, and natural killer cells. The leukapheresis process lasts up to 4 hours and must be coordinated with the patients continuing care regimen to ensure sufficient T cells. The lymphocytes are cryopreserved and immediately shipped to a centralized manufacturing facility.
T cells are separated from the other cells in the leukapheresis product and genetically manipulated, typically using a lentiviral gene delivery method to carry DNA encoding the CAR protein, resulting in CAR T cells. The CAR T cells are cultured to a patient-specific appropriate dose. As this process is finishing, the manufacturer coordinates with the patients health care team to ensure the patient and team are prepared to infuse the CAR T cells. The manufacturing process from the apheresis process to the clinical CAR-T cell product varies widely from patient to patient, from 14 days up to a few months. The limiting step is typically reaching the appropriate CAR-T cell dose.
About a week before the scheduled CAR-T cell infusion, the patient receives multiple days of low-dose conditioning chemotherapy. This step serves to deplete lymphocytes before administration of the CAR T cells, improving the efficacy and persistence of therapy. The CAR T cells are then administered intravenously, and the patient is monitored for adverse events (AEs). The most common AEs with both currently approved products include cytokine release syndrome (CRS), neurological toxicity (NT), hypersensitivity reactions, serious infection, prolonged cytopenias, and hypogammaglobulinemia.3,4 Both products caution that therapy could cause hepatitis B viral reactivation.
The most severe reactions are CRS and NT, both of which can be life threatening. CRS, a common immune reaction following infusion of monoclonal antibodies and CAR T cells, is characterized by fever, nausea, chills, hypotension, tachycardia, asthenia, headache, rash, and dyspnea.5 Mild cases are easily managed, whereas severe cases require more aggressive and invasive therapy, such as mechanical ventilation and intravenous administration of tocilizumab. NT associated with CAR-T cell therapy is characterized by encephalopathy, headache, aphasia, delirium, insomnia, anxiety, tremor, dizziness, seizures, and peripheral neuropathy.
During the clinical trials of Kymriah and Yescarta, CRS and NT occurred in most patients with more than 10% experiencing severe CRS and more than 20% with severe NT.3,4 Initially, the 2 AEs appeared to be independent, but data are beginning to emerge suggesting a correlation. CRS might be a predictor of neurological events; however, neurological events do not predict CRS.6
Real-world evidence from patients treated with Kymriah, presented at the 2019 Society of Hematologic Oncology annual meeting, reported that slightly more than half experienced either of these conditions and less than 20% had severe cases.7 Two-year followup data regarding Yescarta reported severe CRS cases in 11% of patients and severe NT cases in 32%.8 Due to the high rate of occurrence and severity of CRS and NT, both Yescarta and Kymriah have restricted availability through Risk Evaluation and Mitigation Strategies.3,4 Both medications must be administered at a Risk Evaluation and Mitigation Strategiescertified health care facility with health care providers trained in the management and treatment of CRS and 2 doses of tocilizumab available for each patient before CART cell infusion.
Regardless of the potential for severe adverse events (AEs), the benefit of both Yescarta and Kymriah outweigh the risks, as they are highly effective singleadministration therapies. Despite the aggressive nature of the cancers treated with CAR T-cell therapy, meaningful clinical benefit can be achieved within 1 month. A summary of clinical trial primary response rates as well as 2-year data and published real-world data can be found in Table.
Despite differences between the 2 clinically available products, their safety and efficacy profiles in patients with R/R DLBCL are comparable. Differences between the therapies range from the molecular units comprising the CARs, manufacturing differences, lymphodepletion regimen, number of CAR T cells and volume infused, and whether the infusion and short-term patient monitoring occurs in an inpatient or outpatient setting.
Patient-specific genetically modified cell therapies can present many manufacturing challenges. One stark difference between the available therapies, relevant to the patient and clinician experience, has been the manufacturing time and failure rate. During ZUMA-1, of the 101 patients treated with Yescarta, the median time from leukapheresis to product delivery was 17 days (range, 14-51 days), and a 1% manufacture failure rate was reported.4 The ELIANA trial of Kymriah in patients with R/R ALL reported a 9% manufacture failure rate, whereas the JULIET R/R DLBCL trial reported a failure rate of 6.9%, and of the 106 patients receiving Kymriah, the median manufacture time was 113 days (range, 47-196 days).3
Commercial manufacture of Kymriah for DLBCL has struggled to meet specifications.11 While addressing the production issue, Novartis has initiated a safety study evaluating out-of-specification product (NCT04094311) and a managed-access program (NCT03601442).
Known causes of CAR-T cell therapy failure are T cell exhaustion and antigen escape. T cell exhaustion is characterized by a loss of responsive T cells due to changes in gene expression and can be prevented by immune checkpoint inhibitors PD-1, PD-L1, or CTLA- 4. Antigen escape describes a condition in which some cancer cells do not express the CAR-targeted antigen; therefore, they escape immune activation and survive within the patient. Engineering a secondary CAR to a different antigen, such as CD22 in the case of ALL, increases the likelihood of targeting all malignant cells. Solutions to both of these inhibitory mechanisms are currently under clinical trial investigation.12,13
The therapeutic success of CAR T cells ensures gene-modified immune cell therapy will be refined, optimized, and broadly applied until limits are reached. Many clinical groups are investigating biomarkers associated with severe AEs to provide an additional layer of precision care to the CAR-T cell therapy model.6,14 In addition, clinical trials are underway evaluating combination therapies to enhance the efficacy and improve the safety of CART cell therapy. Early-stage research is evaluating the possibility of off-the-shelf CAR-T cell therapy, not a patient-unique manufactured product, to reduce the time to treatment and achieve manufacturing efficiencies and consistencies.15,16 Gene-modified cell therapy, such as CAR T-cell therapy, is revolutionizing oncology, and this living drug model is breathing life into the hopes of patients with cancer and caregivers.
Excerpt from:
CAR T-Cell Therapy: Genetically Programming the Immune System to Attack Malignant Cells - Pharmacy Times
- How Minaris is Tackling the Scalability Challenge in Cell and Gene Therapy: A Conversation with CEO, Dr. Hiroto Bando - geneonline - November 29th, 2024
- Toward Personalized Cell Therapies by Using Stem Cells 2013: BioMed Research International - Wiley Online Library - November 15th, 2024
- Cell therapy for heart disease and therapeutic cloning: will embryos re-enter the stem cell race? - Genethique - November 15th, 2024
- Cutting-edge stem cell therapy proves safe, but will it ever be ... - AAAS - November 6th, 2024
- Induced pluripotent stem cell - Wikipedia - October 21st, 2024
- What are iPS cells? | For the Public | CiRA | Center for iPS Cell ... - October 21st, 2024
- Nobel Winner Shinya Yamanaka: Cell Therapy Is Very Promising For Cancer, Parkinsons, More - Forbes - October 13th, 2024
- iPSCs Manufacturing for Cell-Based Therapies: A Market Analysis of Cell Types, Therapeutic Applications, Ma... - WhaTech - August 4th, 2024
- Abu Dhabi Stem Cells Center partners with Japan-based Kyoto University and Rege Nephro - ZAWYA - January 14th, 2024
- Eterna Therapeutics Enters Into Option and License Agreement with Lineage Cell Therapeutics to Develop Hypoimmune Pluripotent Cell Lines for Multiple... - March 1st, 2023
- What is an Intrusion Prevention System? Definition ... - Fortinet - January 27th, 2023
- What is an IPS Monitor? Monitor Panel Types Explained ... - January 27th, 2023
- IPS panel - Wikipedia - January 27th, 2023
- Cell and gene therapy products: what is an ATMP? - The Niche - January 3rd, 2023
- Cell Therapy - an overview | ScienceDirect Topics - November 22nd, 2022
- Ayala Pharmaceuticals Reports Third Quarter 2022 Financial Results and Provides Corporate Update - November 6th, 2022
- Aligos Therapeutics Presents Clinical Data for its Capsid Assembly Modulator, ALG-000184, at AASLD’s The Liver Meeting® 2022 - November 6th, 2022
- Correcting and Replacing: CinCor Reports Third Quarter Financial Results and Provides Corporate Update - November 6th, 2022
- NGM Bio Announces Poster Presentation Featuring Preclinical Characterization of NGM936 at Upcoming 2022 ASH Annual Meeting - November 6th, 2022
- Assembly Biosciences Presents New Data at AASLD The Liver Meeting® Highlighting Breadth of Virology Portfolio and Potential of Next-Generation Core... - November 6th, 2022
- CymaBay Therapeutics Presents Additional Analyses from Clinical Studies of Seladelpar for Patients with Primary Biliary Cholangitis at The Liver... - November 6th, 2022
- Immutep Announces Abstract Highlighting Eftilagimod Alpha Selected for SITC 2022 Annual Meeting Press Conference - November 6th, 2022
- Osteal Therapeutics, Inc. Completes Enrollment in APEX Phase 2 Clinical Trial of VT-X7 for Periprosthetic Joint Infection - November 6th, 2022
- PMV Pharmaceuticals Appoints Industry Veteran Dr. Carol Gallagher to Board of Directors - November 6th, 2022
- ORYZON to Give Updates on Corporate Progress in November - November 6th, 2022
- Terns Pharmaceuticals Highlights Results from Phase 1 Clinical Trial of TERN-501 at AASLD The Liver Meeting® 2022 - November 6th, 2022
- Aligos Therapeutics Presents Clinical Data for its NASH Program and Nonclinical Data for its Chronic Hepatitis B Portfolio at AASLD’s The Liver... - November 6th, 2022
- First U.S. patient receives autologous stem cell therapy to treat dry ... - October 29th, 2022
- BREAKTHROUGH TECHNOLOGY FOR IPS-DERIVED CELL THERAPIES TURNED INTO GMP PLATFORM BY TREEFROG THERAPEUTICS & INVETECH - Yahoo Finance - October 13th, 2022
- iPS-Cell Based Cell Therapies for Genetic Skin Disease - October 5th, 2022
- Jcr Pharmaceuticals Co., Ltd. and Sysmex Establish A Joint Venture in the Field of Regenerative Medicine and Cell Therapy - Marketscreener.com - October 5th, 2022
- MeiraGTx Announces the Upcoming Presentation of 15 Abstracts at the European Society of Gene and Cell Therapy (ESGCT) 2022 Annual Congress - Yahoo... - October 5th, 2022
- Stem Cells Market Size Expected to Reach USD 19.31 Billion by 2028: Increasing Number of Clinical Trials Across the Globe - Digital Journal - September 27th, 2022
- Implanting a Patient's Own Reprogrammed Stem Cells Shows Early Positive Results for Treating Dry AMD - Everyday Health - September 19th, 2022
- Current status of umbilical cord blood storage and provision to private biobanks by institutions handling childbirth in Japan - BMC Medical Ethics -... - September 19th, 2022
- Global Induced Pluripotent Stem Cells Market (2022 to 2027) - Growth, Trends, Covid-19 Impact and Forecasts - ResearchAndMarkets.com - Business Wire - September 11th, 2022
- Clinical translation of stem cell therapy for spinal cord injury still premature: results from a single-arm meta-analysis based on 62 clinical trials... - September 11th, 2022
- Improving the differentiation potential of pluripotent stem cells by optimizing culture conditions | Scientific Reports - Nature.com - August 26th, 2022
- New research digs into the genetic drivers of heart failure, with an eye to precision treatments - STAT - August 10th, 2022
- Creative Biolabs Leads the Forefront of iPSC Technology - Digital Journal - August 10th, 2022
- The zinc link: Unraveling the mechanism of methionine-mediated pluripotency regulation - EurekAlert - July 25th, 2022
- Live Cell Metabolic Analysis Paving the Way for Metabolic Research and Cell & Gene Therapy, Upcoming Webinar Hosted by Xtalks - Benzinga - July 16th, 2022
- PROMISING STEM CELL THERAPY IN THE MANAGEMENT OF HIV & AIDS | BTT - Dove Medical Press - July 8th, 2022
- Gene & Cell Therapy FAQs | ASGCT - American Society of Gene & Cell ... - June 30th, 2022
- The benefits and risks of stem cell technology - PMC - June 30th, 2022
- The Future of Parkinson Disease Therapies and the Challenges With Stem Cell Therapies - Neurology Live - June 20th, 2022
- Umoja Biopharma and TreeFrog Therapeutics Announce Collaboration to Address Current Challenges Facing Ex Vivo Allogeneic Therapies in Immuno-Oncology... - June 11th, 2022
- Newsletter April 2022 - Progress in Cline's cell lab and in the stem cell therapy field - Marketscreener.com - April 29th, 2022
- Healios K K : Joint Research with the Division of Regenerative Medicine, the Institute of Medical Science for Developing a Mass Production Method of... - April 3rd, 2022
- A combat with the YAP/TAZ-TEAD oncoproteins for cancer therapy - March 22nd, 2022
- The Pipeline for of iPSC-Derived Cell Therapeutics in 2022 ... - March 22nd, 2022
- Cell Therapy Processing Market CAGR of 27.80% Share, Scope, Stake, Trends, Industry Size, Sales & Revenue, Growth, Opportunities and Demand with... - January 3rd, 2022
- Stem cell therapy for diabetes - PubMed Central (PMC) - November 22nd, 2021
- Stem cells: Therapy, controversy, and research - October 5th, 2021
- How much does stem cell therapy cost in 2021? - The Niche - October 5th, 2021
- "Stem cell-based therapeutics poised to become mainstream option - BSA bureau - October 5th, 2021
- Exclusive Report on Stem Cell Therapy in Cancer Market | Analysis and Opportunity Assessment from 2021-2028 |Aelan Cell Technologies, Baylx, Benitec... - August 6th, 2021
- Asia-Pacific Cell Therapy Market 2021-2028 - Opportunities in the Approval of Kymriah and Yescarta - PRNewswire - August 6th, 2021
- Base Editing as Therapy for Common Inherited Lung and Liver Disease Shows Promise - Clinical OMICs News - July 22nd, 2021
- MoHAP, EHS reveal immunotherapy for cancer, viral infections at Arab Health 2021 - WAM EN - June 25th, 2021
- Kiromic Announces Expansion of In-House Cell therapy cGMP Manufacturing Facility and the Appointment of Industry Veteran Ignacio Nez as Chief... - June 8th, 2021
- Cryopreservation Media helps in Development of a Cell Therapy for Parkinson's Disease - Microbioz India - June 8th, 2021
- Accelerated Biosciences' Immune-Privileged Human Trophoblast Stem Cells (hTSCs) Offer Breakthrough Opportunities in Cancer-Targeting Therapeutics and... - May 15th, 2021
- Factor Bioscience to Deliver Six Digital Presentations at the American Society of Gene & Cell Therapy (ASGCT) 24th Annual Meeting - PRNewswire - May 15th, 2021
- St. Jude's $11.5B, six-year plan aims to improve global outcomes for children with cancer and catastrophic diseases - The Cancer Letter - May 15th, 2021
- Synthego Launches Eclipse Platform to Accelerate Research and Development of Next-generation Medicines - The Scientist - April 19th, 2021
- The Google Play video app will leave Roku, Vizio, LG and Samsung's TV platforms - Yahoo Canada Finance - April 19th, 2021
- New Controversy for Stem Cell Therapy That Repairs Spinal Cords - The Great Courses Daily News - March 8th, 2021
- Brentuximab Vedotin Plus Chemotherapy Works as a Primary Option for Hodgkin Lymphoma - Targeted Oncology - March 8th, 2021
- Induction of muscle-regenerative multipotent stem cells from human adipocytes by PDGF-AB and 5-azacytidine - Science Advances - January 14th, 2021
- A Potential Therapy for One of the Leading Causes of Heart Disease - PRNewswire - December 10th, 2020
- Evotec and Sartorius Partner with Start-Up Curexsys on IPSC-Based Therapeutic Exosome Approach - BioSpace - December 9th, 2020
- Induced Pluripotent Stem Cell (iPS Cell) Applications in 2020 - November 28th, 2020
- Induced Pluripotent Stem Cell - an overview ... - November 28th, 2020
- The Stem Cell-Derived Cells market to Scale new heights in the next decade - Khabar South Asia - November 28th, 2020
- Stem Cells Market 2020: Rising with Immense Development Trends across the Globe by 2027 - The Market Feed - November 25th, 2020
- The Stem Cell-Derived Cells Market to witness explicit growth from 2019 and 2029 - The Haitian-Caribbean News Network - November 23rd, 2020
- Stem Cells Market Research Provides an In-Depth Analysis on the Future Growth Prospects and Industry Trends Adopted by the Competitors | (2020-2027),... - November 23rd, 2020
- The Stem Cell-Derived Cells market to go the astute way from 2019 to 2029 - TechnoWeekly - November 3rd, 2020
- Global Stem Cells Market 2020 Industry Demand, Share, Global Trend, Top Key Players Update, Business Statistics And Research Methodology By Forecast... - November 3rd, 2020