Your search keyword '"CAR‐T cell immunotherapy"' showing total 19 results

1. Application of CAR-T cell therapy in B-cell lymphoma: a meta-analysis of randomized controlled trials

Author

Yu, Xiao-Jing, Liu, Chang, Hu, Shi-Zhi, Yuan, Zhan-Yuan, Ni, Hai-Yan, Sun, Sheng-Jia, Hu, Cheng-Yang, and Zhan, He-Qin

Published

2024

2. Progress and prospects for use of cellular immunotherapy in pancreatic cancer.

Author

Tian, Jing, Bai, Tiankai, Zhang, Zhiyong, Zhai, Xuan, Wang, Kangmin, Gao, Xingyi, and Yan, Bin

Subjects

*PANCREATIC cancer, *IMMUNOTHERAPY, *CHIMERIC antigen receptors, *KILLER cells, *CELL receptors, *PANCREATIC tumors

Abstract

Pancreatic cancer (PC) is a highly malignant tumor with an increasing incidence rate in recent years. Because pancreatic cancer has an insidious onset, unknown pathophysiology, and poor prognosis, the overall survival rate of pancreatic cancer patients has not improved considerably even with extensive treatment methods such as surgery, radiation, biotherapy, and targeted therapy. Therefore, finding and developing more effective and safe treatments for pancreatic cancer is critical. Cellular immunotherapy has achieved considerable advances in the field of oncology in recent years. Technology is continuously advancing, with new breakthroughs virtually every month, and pancreatic cancer eradication is expected to improve considerably. This article examines the advance of chimeric antigen receptor NK cell immunotherapy (CAR-NK) cell immunotherapy for pancreatic cancer research, as well as research ideas for pancreatic cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2022

3. Transcriptional states of CAR-T infusion relate to neurotoxicity – lessons from high-resolution single-cell SOM expression portraying.

Author

Loeffler-Wirth, Henry, Rade, Michael, Arakelyan, Arsen, Kreuz, Markus, Loeffler, Markus, Koehl, Ulrike, Reiche, Kristin, and Binder, Hans

Subjects

NEUROTOXICOLOGY, RNA sequencing, B cells, T cells, FATIGUE (Physiology)

Abstract

Anti-CD19 CAR-T cell immunotherapy is a hopeful treatment option for patients with B cell lymphomas, however it copes with partly severe adverse effects like neurotoxicity. Single-cell resolved molecular data sets in combination with clinical parametrization allow for comprehensive characterization of cellular subpopulations, their transcriptomic states, and their relation to the adverse effects. We here present a re-analysis of single-cell RNA sequencing data of 24 patients comprising more than 130,000 cells with focus on cellular states and their association to immune cell related neurotoxicity. For this, we developed a single-cell data portraying workflow to disentangle the transcriptional state space with single-cell resolution and its analysis in terms of modularly-composed cellular programs. We demonstrated capabilities of single-cell data portraying to disentangle transcriptional states using intuitive visualization, functional mining, molecular cell stratification, and variability analyses. Our analysis revealed that the T cell composition of the patient’s infusion product as well as the spectrum of their transcriptional states of cells derived from patients with low ICANS grade do not markedly differ from those of cells from high ICANS patients, while the relative abundancies, particularly that of cycling cells, of LAG3-mediated exhaustion and of CAR positive cells, vary. Our study provides molecular details of the transcriptomic landscape with possible impact to overcome neurotoxicity. [ABSTRACT FROM AUTHOR]

Published

2022

4. Transcriptional states of CAR-T infusion relate to neurotoxicity – lessons from high-resolution single-cell SOM expression portraying

Author

Henry Loeffler-Wirth, Michael Rade, Arsen Arakelyan, Markus Kreuz, Markus Loeffler, Ulrike Koehl, Kristin Reiche, and Hans Binder

Subjects

single-cell transcriptomics, CAR-T cell immunotherapy, data portraying, transcriptional states, bioinformatics workflow, Immunologic diseases. Allergy, RC581-607

Abstract

Anti-CD19 CAR-T cell immunotherapy is a hopeful treatment option for patients with B cell lymphomas, however it copes with partly severe adverse effects like neurotoxicity. Single-cell resolved molecular data sets in combination with clinical parametrization allow for comprehensive characterization of cellular subpopulations, their transcriptomic states, and their relation to the adverse effects. We here present a re-analysis of single-cell RNA sequencing data of 24 patients comprising more than 130,000 cells with focus on cellular states and their association to immune cell related neurotoxicity. For this, we developed a single-cell data portraying workflow to disentangle the transcriptional state space with single-cell resolution and its analysis in terms of modularly-composed cellular programs. We demonstrated capabilities of single-cell data portraying to disentangle transcriptional states using intuitive visualization, functional mining, molecular cell stratification, and variability analyses. Our analysis revealed that the T cell composition of the patient’s infusion product as well as the spectrum of their transcriptional states of cells derived from patients with low ICANS grade do not markedly differ from those of cells from high ICANS patients, while the relative abundancies, particularly that of cycling cells, of LAG3-mediated exhaustion and of CAR positive cells, vary. Our study provides molecular details of the transcriptomic landscape with possible impact to overcome neurotoxicity.

Published

2022

5. T Cell Defects: New Insights Into the Primary Resistance Factor to CD19/CD22 Cocktail CAR T-Cell Immunotherapy in Diffuse Large B-Cell Lymphoma.

Author

Wang, Jiachen, Shen, Kefeng, Mu, Wei, Li, Weigang, Zhang, Meilan, Zhang, Wei, Li, Zhe, Ge, Tong, Zhu, Zhoujie, Zhang, Shangkun, Chen, Caixia, Xing, Shugang, Zhu, Li, Chen, Liting, Wang, Na, Huang, Liang, Li, Dengju, Xiao, Min, and Zhou, Jianfeng

Subjects

DIFFUSE large B-cell lymphomas, T cells, CYTOKINE release syndrome, CHIMERIC antigen receptors, LACTATE dehydrogenase

Abstract

Despite impressive progress, a significant portion of patients still experience primary or secondary resistance to chimeric antigen receptor (CAR) T-cell immunotherapy for relapsed/refractory diffuse large B-cell lymphoma (r/r DLBCL). The mechanism of primary resistance involves T-cell extrinsic and intrinsic dysfunction. In the present study, a total of 135 patients of DLBCL treated with murine CD19/CD22 cocktail CAR T-therapy were assessed retrospectively. Based on four criteria (maximal expansion of the transgene/CAR-positive T-cell levels post-infusion [Cmax], initial persistence of the transgene by the CAR transgene level at +3 months [Tlast], CD19+ B-cell levels [B-cell recovery], and the initial response to CAR T-cell therapy), 48 patients were included in the research and divided into two groups (a T-normal group [n=22] and a T-defect [n=26] group). According to univariate and multivariate regression analyses, higher lactate dehydrogenase (LDH) levels before leukapheresis (hazard ratio (HR) = 1.922; p = 0.045) and lower cytokine release syndrome (CRS) grade after CAR T-cell infusion (HR = 0.150; p = 0.026) were independent risk factors of T-cell dysfunction. Moreover, using whole-exon sequencing, we found that germline variants in 47 genes were significantly enriched in the T-defect group compared to the T-normal group (96% vs. 41%; p<0.0001), these genes consisted of CAR structure genes (n=3), T-cell signal 1 to signal 3 genes (n=13), T cell immune regulation- and checkpoint-related genes (n=9), cytokine- and chemokine-related genes (n=13), and T-cell metabolism-related genes (n=9). Heterozygous germline UNC13D mutations had the highest intergroup differences (26.9% vs. 0%; p =0.008). Compound heterozygous CX3CR1 I249/M280 variants, referred to as pathogenic and risk factors according to the ClinVar database, were enriched in the T-defect group (3 of 26). In summary, the clinical characteristics and T-cell immunodeficiency genetic features may help explain the underlying mechanism of treatment primary resistance and provide novel insights into CAR T-cell immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2022

6. T Cell Defects: New Insights Into the Primary Resistance Factor to CD19/CD22 Cocktail CAR T-Cell Immunotherapy in Diffuse Large B-Cell Lymphoma

Author

Jiachen Wang, Kefeng Shen, Wei Mu, Weigang Li, Meilan Zhang, Wei Zhang, Zhe Li, Tong Ge, Zhoujie Zhu, Shangkun Zhang, Caixia Chen, Shugang Xing, Li Zhu, Liting Chen, Na Wang, Liang Huang, Dengju Li, Min Xiao, and Jianfeng Zhou

Subjects

CAR-T cell immunotherapy, immune resistance, primary immunodeficiencies, T cell dysfunction, germline alterations, LDH – lactate dehydrogenase, Immunologic diseases. Allergy, RC581-607

Abstract

Despite impressive progress, a significant portion of patients still experience primary or secondary resistance to chimeric antigen receptor (CAR) T-cell immunotherapy for relapsed/refractory diffuse large B-cell lymphoma (r/r DLBCL). The mechanism of primary resistance involves T-cell extrinsic and intrinsic dysfunction. In the present study, a total of 135 patients of DLBCL treated with murine CD19/CD22 cocktail CAR T-therapy were assessed retrospectively. Based on four criteria (maximal expansion of the transgene/CAR-positive T-cell levels post-infusion [Cmax], initial persistence of the transgene by the CAR transgene level at +3 months [Tlast], CD19+ B-cell levels [B-cell recovery], and the initial response to CAR T-cell therapy), 48 patients were included in the research and divided into two groups (a T-normal group [n=22] and a T-defect [n=26] group). According to univariate and multivariate regression analyses, higher lactate dehydrogenase (LDH) levels before leukapheresis (hazard ratio (HR) = 1.922; p = 0.045) and lower cytokine release syndrome (CRS) grade after CAR T-cell infusion (HR = 0.150; p = 0.026) were independent risk factors of T-cell dysfunction. Moreover, using whole-exon sequencing, we found that germline variants in 47 genes were significantly enriched in the T-defect group compared to the T-normal group (96% vs. 41%; p

Published

2022

7. Advances in CAR-T Cell Genetic Engineering Strategies to Overcome Hurdles in Solid Tumors Treatment.

Author

Andrea, Alain E., Chiron, Andrada, Mallah, Sarah, Bessoles, Stéphanie, Sarrabayrouse, Guillaume, and Hacein-Bey-Abina, Salima

Subjects

TUMOR treatment, GENETIC engineering, T cells, IMMUNE checkpoint proteins, CHIMERIC antigen receptors

Abstract

During this last decade, adoptive transfer of T lymphocytes genetically modified to express chimeric antigen receptors (CARs) emerged as a valuable therapeutic strategy in hematological cancers. However, this immunotherapy has demonstrated limited efficacy in solid tumors. The main obstacle encountered by CAR-T cells in solid malignancies is the immunosuppressive tumor microenvironment (TME). The TME impedes tumor trafficking and penetration of T lymphocytes and installs an immunosuppressive milieu by producing suppressive soluble factors and by overexpressing negative immune checkpoints. In order to overcome these hurdles, new CAR-T cells engineering strategies were designed, to potentiate tumor recognition and infiltration and anti-cancer activity in the hostile TME. In this review, we provide an overview of the major mechanisms used by tumor cells to evade immune defenses and we critically expose the most optimistic engineering strategies to make CAR-T cell therapy a solid option for solid tumors. [ABSTRACT FROM AUTHOR]

Published

2022

8. New actionable targets and investigational drugs in chronic lymphocytic leukemia.

Author

Bohn, Jan-Paul

Abstract

Summary: The treatment landscape of chronic lymphocytic leukemia (CLL) has shifted from chemotherapy-based approaches to targeted agents in the last decade. However, evolving drug resistance and accumulating toxicity remain challenges that still limit patients' clinical outcomes. Furthermore, currently licensed targeted agents such as inhibitors of Bruton's tyrosine kinase (BTK) and anti-apoptotic protein B‑cell lymphoma 2 (BCL2) do not adequately compensate for the poor clinical outcomes associated with high-risk genetics such as TP53 alterations. New insights into disease biology facilitated design and investigation of several new targeted agents with encouraging results in early clinical trials. This short review focuses on novel actionable targets and investigational drugs aimed at circumventing acquired resistance and avoiding accumulating toxicity. [ABSTRACT FROM AUTHOR]

Published

2022

9. Advances in CAR-T Cell Genetic Engineering Strategies to Overcome Hurdles in Solid Tumors Treatment

Author

Alain E. Andrea, Andrada Chiron, Sarah Mallah, Stéphanie Bessoles, Guillaume Sarrabayrouse, and Salima Hacein-Bey-Abina

Subjects

CAR-T cell immunotherapy, Tumor microenvironment, Solid tumor, Tumor Homing, Chemokines, Angiogenesis, Immunologic diseases. Allergy, RC581-607

Abstract

During this last decade, adoptive transfer of T lymphocytes genetically modified to express chimeric antigen receptors (CARs) emerged as a valuable therapeutic strategy in hematological cancers. However, this immunotherapy has demonstrated limited efficacy in solid tumors. The main obstacle encountered by CAR-T cells in solid malignancies is the immunosuppressive tumor microenvironment (TME). The TME impedes tumor trafficking and penetration of T lymphocytes and installs an immunosuppressive milieu by producing suppressive soluble factors and by overexpressing negative immune checkpoints. In order to overcome these hurdles, new CAR-T cells engineering strategies were designed, to potentiate tumor recognition and infiltration and anti-cancer activity in the hostile TME. In this review, we provide an overview of the major mechanisms used by tumor cells to evade immune defenses and we critically expose the most optimistic engineering strategies to make CAR-T cell therapy a solid option for solid tumors.

Published

2022

10. CAR-T Cell Therapy: A Door Is Open to Find Innumerable Possibilities of Treatments for Cancer Patients

Author

Lorena Perez - Amill, Berta Marzal, Alvaro Urbano - Ispizua, Manel Juan, and Beatriz Martín - Antonio

Subjects

car-t cell immunotherapy, cd19, bcma, gd2, her2, egfrviii, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Seven years ago a chronic lymphocytic leukemia patient was for the first time successfully treated with chimeric antigen receptor (CAR)-modified T cells (CAR-T cells) to target CD19 overexpression in tumor cells. This was the beginning of the development of a new type of immunotherapy treatment in cancer patients. Since then, identification of novel antigens expressed in tumor cells and optimization of both CAR constructs and protocols of administration have opened up new avenues for the successful treatment of other hematological malignancies. However, research still continues to avoid some problems such as toxicities associated with the treatment and to find strategies to avoid tumor cell immune evasion mechanisms. On the other hand, for solid tumors, CAR-T therapy results are still in an early phase. In contrast to hematological malignancies, the complex tumor heterogeneity of solid tumors has led to the research of novel and challenging strategies to improve CAR-T cell activity. Here, we will review the main clinical results obtained with CAR-T cells in hematological malignancies, specifically focusing on CAR-T-19 and CAR-T against B-cell maturation antigen (CAR-T-BCMA). Moreover, we will mention the main problems that decrease CAR-T cell activity in solid tumors and the strategies to overcome them. Finally, we will present some of the first clinical results obtained for solid tumors.

Published

2018

11. Management of neurotoxicity syndrome complicated by autologous hematopoietic stem cell transplantation bridge to chimeric antigen receptor T-Cell therapy: A case report.

Author

Jiang P, Yang P, Wang W, Cao J, Chen W, Fu J, Lu L, Lu Y, and Zhu X

Abstract

Effectively addressing the challenges posed by relapsed and refractory diffuse large B-cell lymphoma, particularly when employing autologous hematopoietic stem cell transplantation and CAR-T therapy, requires a comprehensive approach to treatment and nursing. This case report emphasizes a nursing strategy focused on managing neurotoxicity post-CAR-T therapy. Nursing interventions include the identification of neurotoxicity symptoms, neuropsychiatric management, careful support during lumbar puncture and intrathecal administration, psychological assistance, and adaptive nutritional guidance. The diligent application of treatment and nursing care resulted in a remarkable recovery for the patient, as evidenced by the alleviation of central facial paralysis, improvement in swallowing function (from Grade 4 to Grade 2), and enhanced vocalization. Consistent and specialized nursing care is paramount for effectively managing complications, especially neurotoxicity, in patients undergoing CAR-T therapy. A thorough monitoring of symptoms and personalized care contribute to optimizing treatment outcomes and ensuring patient safety., (© 2024 The Authors.)

Published

2023

12. How should we evaluate the cost-effectiveness of CAR T-cell therapies?

Author

Patel, Nishma, Farid, Suzanne S., and Morris, Stephen

Abstract

• The opportunity cost of CAR T-cell therapy and what is forgone as a consequence of adopting CAR T-cell therapy. • The challenges in evidence generation and uncertainty that make it difficult to produce the robust estimates of health and economic impact. • The reimbursement mechanisms in response to high-cost and highly specialised technologies. [ABSTRACT FROM AUTHOR]

Published

2020

13. CAR-T Cell Therapy: A Door Is Open to Find Innumerable Possibilities of Treatments for Cancer Patients.

Author

Perez-Amill, Lorena, Marzal, Berta, Urbano-Ispizua, Alvaro, Juan, Manel, and Martín-Antonio, Beatriz

Subjects

*HEMATOLOGIC malignancies, *CELL receptors, *CELLULAR therapy, *GENE expression, *IMMUNOTHERAPY, *ONCOGENES, *T cells, *THERAPEUTICS

Abstract

Seven years ago a chronic lymphocytic leukemia patient was for the first time successfully treated with chimeric antigen receptor (CAR)-modified T cells (CAR-T cells) to target CD19 overexpression in tumor cells. This was the beginning of the development of a new type of immunotherapy treatment in cancer patients. Since then, identification of novel antigens expressed in tumor cells and optimization of both CAR constructs and protocols of administration have opened up new avenues for the successful treatment of other hematological malignancies. However, research still continues to avoid some problems such as toxicities associated with the treatment and to find strategies to avoid tumor cell immune evasion mechanisms. On the other hand, for solid tumors, CAR-T therapy results are still in an early phase. In contrast to hematological malignancies, the complex tumor heterogeneity of solid tumors has led to the research of novel and challenging strategies to improve CAR-T cell activity. Here, we will review the main clinical results obtained with CAR-T cells in hematological malignancies, specifically focusing on CAR-T-19 and CAR-T against B-cell maturation antigen (CAR-T-BCMA). Moreover, we will mention the main problems that decrease CAR-T cell activity in solid tumors and the strategies to overcome them. Finally, we will present some of the first clinical results obtained for solid tumors. [ABSTRACT FROM AUTHOR]

Published

2018

14. A general view of CD33+leukemic stem cells and CAR-T cells as interesting targets in acute myeloblatsic leukemia therapy

Author

Raheleh Farahzadi, Zohreh Sanaat, Ezzatollah Fathi, Roghayeh Sheervalilou, and Ilja Vietor

Subjects

Acute myeloblastic leukemia, CD33+ leukemic stem cells, CAR-T cell, medicine.medical_treatment, Review Article, Targeted therapy, Cell therapy, 03 medical and health sciences, 0302 clinical medicine, Cancer stem cell, hemic and lymphatic diseases, medicine, CAR-T cell immunotherapy, Acute leukemia, Cancer stem cells, business.industry, Hematology, mAB-based therapy, medicine.disease, Chimeric antigen receptor, Leukemia, 030220 oncology & carcinogenesis, Cancer research, Stem cell, business, 030215 immunology

Abstract

Acute myeloblastic leukemia (AML) is the most frequent acute leukemia in adulthood with very poor overall survival rates. In the past few decades, significant progresses had led to the findings of new therapeutic approaches and the better understanding of the molecular complexity of this hematologic malignancy. Leukemic stem cells (LSCs) play a key role in the initiation, progression, regression, and drug resistance of different types of leukemia. The cellular and molecular characteristics of LSCs and their mechanism in the development of leukemia had not yet been specified. Therefore, determining their cellular and molecular characteristics and creating new approaches for targeted therapy of LSCs is crucial for the future of leukemia research. For this reason, the recognition of surface maker targets on the cell surface of LSCs has attracted much attention. CD33 has been detected on blasts in most AML patients, making them an interesting target for AML therapy. Genetic engineering of T cells with chimeric antigen receptor (CAR-T cell therapy) is a novel therapeutic strategy. It extends the range of antigens available for use in adoptive T-cell immunotherapy. This review will focus on CAR-T cell approaches as well as monoclonal antibody (mAB)-based therapy, the two antibody-based therapies utilized in AML treatment.

Published

2020

15. Advances in CAR-T Cell Genetic Engineering Strategies to Overcome Hurdles in Solid Tumors Treatment

Author

Alain E. Andrea, Andrada Chiron, Sarah Mallah, Stéphanie Bessoles, Guillaume Sarrabayrouse, and Salima Hacein-Bey-Abina

Subjects

Receptors, Chimeric Antigen, Solid tumor, T-Lymphocytes, Immunology, RC581-607, Immunotherapy, Adoptive, Antigens, Neoplasm, Neoplasms, Tumor Microenvironment, Immunology and Allergy, Animals, Humans, Angiogenesis, Tumor Homing, Chemokines, Immunologic diseases. Allergy, Cell Engineering, CAR-T cell immunotherapy

Abstract

During this last decade, adoptive transfer of T lymphocytes genetically modified to express chimeric antigen receptors (CARs) emerged as a valuable therapeutic strategy in hematological cancers. However, this immunotherapy has demonstrated limited efficacy in solid tumors. The main obstacle encountered by CAR-T cells in solid malignancies is the immunosuppressive tumor microenvironment (TME). The TME impedes tumor trafficking and penetration of T lymphocytes and installs an immunosuppressive milieu by producing suppressive soluble factors and by overexpressing negative immune checkpoints. In order to overcome these hurdles, new CAR-T cells engineering strategies were designed, to potentiate tumor recognition and infiltration and anti-cancer activity in the hostile TME. In this review, we provide an overview of the major mechanisms used by tumor cells to evade immune defenses and we critically expose the most optimistic engineering strategies to make CAR-T cell therapy a solid option for solid tumors.

Published

2021

16. Effective antitumor activity of 5T4-specific CAR-T cells against ovarian cancer cells in vitro and xenotransplanted tumors in vivo

Author

Weirong Lai, Jamel Ali, Yiran Tao, Hanshuo Yang, Yuyin Fu, Yuqin Yao, E Dong, Ying Lu, Mengdan Wu, Jinliang Yang, Zhixiong Zhang, Lantu Gou, Guangbing Zhang, Yujia Peng, Cuiyu Guo, Qinhuai Lai, Shijie Zhou, Fanxin Ma, and Xiaozhu Yue

Subjects

Adoptive cell transfer, CAR‐T cell immunotherapy, chimeric antigen receptor, business.industry, medicine.medical_treatment, 5T4, Immunotherapy, Original Articles, medicine.disease, Chimeric antigen receptor, Metastasis, ovarian cancer, Antigen, Tumor progression, medicine, Cancer research, Cytotoxic T cell, Original Article, Ovarian cancer, business

Abstract

Ovarian cancer is considered to be the most lethal gynecologic malignancy, and despite the development of conventional therapies and new therapeutic approaches, the patient's survival time remains short because of tumor recurrence and metastasis. Therefore, effective methods to control tumor progression are urgently needed. The oncofetal tumor‐associated antigen 5T4 (trophoblast glycoprotein, TPBG) represents an appealing target for adoptive T‐cell immunotherapy as it is highly expressed on the surface of various tumor cells, has very limited expression in normal tissues, and spreads widely in malignant tumors throughout their development. In this study, we generated second‐generation human chimeric antigen receptor (CAR) T cells with redirected specificity to 5T4 (5T4 CAR‐T) and demonstrated that these CAR‐T cells can elicit lytic cytotoxicity in targeted tumor cells, in addition to the secretion of cytotoxic cytokines, including IFN‐γ, IL‐2, and GM‐CSF. Furthermore, adoptive transfer of 5T4 CAR‐T cells significantly delayed tumor formation in xenografts of peritoneal and subcutaneous animal models. These results demonstrate the potential efficacy and feasibility of 5T4 CAR‐T cell immunotherapy and provide a theoretical basis for the clinical study of future immunotherapies targeting 5T4 for ovarian cancer., We generated a second‐generation CAR‐T cell targeting 5T4 with the costimulatory molecule of 4‐1BB. 5T4 CAR‐T cells had specific cytotoxicity against ovarian cancer cells and secreted cytotoxic cytokines, including IFN‐γ, IL‐2 and GM‐CSF in vitro. 5T4 CAR‐T cells could eradicate peritoneal and subcutaneous tumor models in vivo completely in a short time without recurrence.

Published

2020

17. CAR-T cell therapy, a door is open to find innumerable possibilities of treatments for cancer patients

Author

Berta Marzal, Alvaro Urbano-Ispizua, Manel Juan, Beatriz Martín-Antonio, and Lorena Perez-Amill

Subjects

EGFRvIII, 0301 basic medicine, lcsh:Internal medicine, medicine.medical_treatment, Chronic lymphocytic leukemia, Receptors, Antigen, T-Cell, Review, Immunotherapy, Adoptive, CD19, 03 medical and health sciences, Immune system, Antigen, HER2, Humans, Medicine, lcsh:RC31-1245, CAR-T cell immunotherapy, biology, lcsh:RC633-647.5, business.industry, GD2, Cancer, lcsh:Diseases of the blood and blood-forming organs, Hematology, Immunotherapy, medicine.disease, Leukemia, Lymphocytic, Chronic, B-Cell, Chimeric antigen receptor, BCMA, 030104 developmental biology, Cancer research, biology.protein, CAR T-cell therapy, business, human activities

Abstract

Seven years ago a chronic lymphocytic leukemia patient was for the first time successfully treated with chimeric antigen receptor (CAR)-modified T cells (CAR-T cells) to target CD19 overexpression in tumor cells. This was the beginning of the development of a new type of immunotherapy treatment in cancer patients. Since then, identification of novel antigens expressed in tumor cells and optimization of both CAR constructs and protocols of administration have opened up new avenues for the successful treatment of other hematological malignancies. However, research still continues to avoid some problems such as toxicities associated with the treatment and to find strategies to avoid tumor cell immune evasion mechanisms. On the other hand, for solid tumors, CAR-T therapy results are still in an early phase. In contrast to hematological malignancies, the complex tumor heterogeneity of solid tumors has led to the research of novel and challenging strategies to improve CAR-T cell activity. Here, we will review the main clinical results obtained with CAR-T cells in hematological malignancies, specifically focusing on CAR-T-19 and CAR-T against B-cell maturation antigen (CAR-T-BCMA). Moreover, we will mention the main problems that decrease CAR-T cell activity in solid tumors and the strategies to overcome them. Finally, we will present some of the first clinical results obtained for solid tumors.Yedi sene önce kronik lenfositik lösemili bir hasta ilk kez başarılı olarak tümör hücrelerinde aşırı sunulan CD19’u hedefleyen kimerik antijen reseptör (CAR)-ile değiştirilmiş T hücreleri (CAR-T hücreleri) ile tedavi edilmiştir. Bu kanser hastalarında yeni bir tip immünoterapinin gelişiminin başlangıcını oluşturmaktaydı. Bunu takiben, tümör hücrelerinde sunulan yeni antijenlerin tanımlanması ve CAR yapılarını ve uygulama protokolleri diğer hematolojik habis tümörlerin başarılı tedavisi için yeni yollar açmıştır. Ancak, tedavi ile ilişkili toksisite gibi bazı problemlerin önlenmesi ve tümör hücresinin immün kaçış mekanizmalarıyla baş edilmesi ile ilgili çalışmalar halen devam etmektedir. Ayrıca, solid tümörler için, CAR-T tedavi sonuçları halen erken dönemdedir. Hematolojik habis tümörlerin aksine, solid tümörlerin karmaşık tümör heterojenitesi CAR-T hücre aktivitesi arttırmaya yönelik yeni ve zorlayıcı stratejilerinin araştırılmasına yol açmıştır. Burada, CAR-T hücrelerinin hematolojik habis tümörlerdeki, özellikle de CAR-T-19 ve B-hücre matürasyon antijenine karşı CAR-T’nin (CAR-T-BCMA) başlıca klinik sonuçlarını gözden geçireceğiz. Ayrıca, solid tümörlerde CAR-T hücre aktivitesini azaltan problemlerden ve bunların üstesinden gelmeye yarayan stratejilerden bahsedeceğiz. Son olarak, solid tümörlerdeki ilk klinik çalışmaların bazılarını sunacağız.

Published

2018

18. Effective antitumor activity of 5T4-specific CAR-T cells against ovarian cancer cells in vitro and xenotransplanted tumors in vivo.

Author

Guo C, Dong E, Lai Q, Zhou S, Zhang G, Wu M, Yue X, Tao Y, Peng Y, Ali J, Lu Y, Fu Y, Lai W, Zhang Z, Ma F, Yao Y, Gou L, Yang H, and Yang J

Abstract

Ovarian cancer is considered to be the most lethal gynecologic malignancy, and despite the development of conventional therapies and new therapeutic approaches, the patient's survival time remains short because of tumor recurrence and metastasis. Therefore, effective methods to control tumor progression are urgently needed. The oncofetal tumor-associated antigen 5T4 (trophoblast glycoprotein, TPBG) represents an appealing target for adoptive T-cell immunotherapy as it is highly expressed on the surface of various tumor cells, has very limited expression in normal tissues, and spreads widely in malignant tumors throughout their development. In this study, we generated second-generation human chimeric antigen receptor (CAR) T cells with redirected specificity to 5T4 (5T4 CAR-T) and demonstrated that these CAR-T cells can elicit lytic cytotoxicity in targeted tumor cells, in addition to the secretion of cytotoxic cytokines, including IFN-γ, IL-2, and GM-CSF. Furthermore, adoptive transfer of 5T4 CAR-T cells significantly delayed tumor formation in xenografts of peritoneal and subcutaneous animal models. These results demonstrate the potential efficacy and feasibility of 5T4 CAR-T cell immunotherapy and provide a theoretical basis for the clinical study of future immunotherapies targeting 5T4 for ovarian cancer., Competing Interests: The authors declare no conflict of interest., (© 2020 The Authors. MedComm published by Sichuan International Medical Exchange & Promotion Association (SCIMEA) and John Wiley & Sons Australia, Ltd.)

Published

2020

19. A general view of CD33 + leukemic stem cells and CAR-T cells as interesting targets in acute myeloblatsic leukemia therapy.

Author

Fathi E, Farahzadi R, Sheervalilou R, Sanaat Z, and Vietor I

Abstract

Acute myeloblastic leukemia (AML) is the most frequent acute leukemia in adulthood with very poor overall survival rates. In the past few decades, significant progresses had led to the findings of new therapeutic approaches and the better understanding of the molecular complexity of this hematologic malignancy. Leukemic stem cells (LSCs) play a key role in the initiation, progression, regression, and drug resistance of different types of leukemia. The cellular and molecular characteristics of LSCs and their mechanism in the development of leukemia had not yet been specified. Therefore, determining their cellular and molecular characteristics and creating new approaches for targeted therapy of LSCs is crucial for the future of leukemia research. For this reason, the recognition of surface maker targets on the cell surface of LSCs has attracted much attention. CD33 has been detected on blasts in most AML patients, making them an interesting target for AML therapy. Genetic engineering of T cells with chimeric antigen receptor (CAR-T cell therapy) is a novel therapeutic strategy. It extends the range of antigens available for use in adoptive T-cell immunotherapy. This review will focus on CAR-T cell approaches as well as monoclonal antibody (mAB)-based therapy, the two antibody-based therapies utilized in AML treatment., Competing Interests: Authors' Disclosures of Potential Conflicts of Interest: No potential conflicts of interest relevant to this article were reported., (© 2020 Korean Society of Hematology.)

Published

2020