Research progress and potential medical applications of anaplastic lymphoma kinase in treatment of non-small cell lung cancer / 中国药理学通报

During the treatment of non-small cell lung cancer ( NSCLC) , many patients have developed drug resistance due to the use of targeted EGFR inhibitors. The main reasons for drug resistance are EGFR site mutations and bypass activation. Activation of ALK pathway is one of the major types of bypass activation. A recent authoritative study indicates that ALK is closely related to immunotherapy. This article reviews the treatment of ALK in tumors from three aspects: the structure and physiological function of ALK, the small molecule inhibitor of ALK, the biological function of ALK and its related treatment methods for NSCLC, and prospects future directions for better application of ALK in the treatment of NSCLC.

Application of immunotherapy in relapsed/refractory B-cell acute lymphoblastic leukemia / 中国药房

Immunotherapy， as an emerging treatment method， has been proven to improve the prognosis of patients with relapsed/refractory B-cell acute lymphoblastic leukemia （B-ALL） and has good application prospects. Immunotherapy， including chimeric antigen receptor T cell immunotherapy （CAR-T） and monoclonal antibodies， has shown great potential for application， and has been approved for marketing. This article summarizes the application of the above two therapies in the treatment of relapsed/ refractory B-ALL， and concludes that CAR-T is a kind of personalized immunotherapy， and the selection of ideal targets is an important part of its action. Currently， the ideal targets in clinical studies include CD19， CD22 and CD19/CD22. Monoclonal antibodies， including blinatumomab and inotuzumab ozogamicin， have shown superior therapeutic efficacy for relapsed/refractory B- ALL. Immunotherapy has shown superior therapeutic effects compared to conventional chemotherapy， expanding the selection of treatment options for relapsed/refractory B-ALL.

Progress of Chimeric Antigen Receptor Gene Modified-T Cell Immunotherapy for Thoracic Malignancies / 肿瘤防治研究

With a deepened understanding of the pathophysiology and pathogenesis of thoracic malignancies, the treatment has been transited from traditional treatment on the basis of surgery, radiotherapy, and chemotherapy to individualized and precise targeted therapy and immunotherapy. As an antitumor immunotherapy, chimeric antigen receptor gene-modified T (CAR-T) cells have been approved by the FDA for the treatment of hematological malignancies in five CAR-T products. They have also achieved good therapeutic effects in solid tumors. However, significant challenges remain in the clinical application of CAR-T cell immunotherapy in thoracic malignancies. In this review, the latest research progress of CAR-T cell immunotherapy in the treatment of thoracic malignancies were summarized, including the basic characteristics of CAR-T cells, the popular target antigens, and the existing problems and challenges, to provide new ideas and strategies for clinical immunotherapy of thoracic malignancies.

Advance in chimeric antigen receptor-T cell immunotherapy for multiple myeloma / 中国生物制品学杂志

@#In recent years,considerable progress has been made in the treatment of multiple myeloma(MM).However,despite the current improved prognosis of this malignancy,it always ends in relapse and therefore new therapeutic approaches are urgently needed to overcome it.The chimeric antigen receptor(CAR)-T cells targeting B cell maturation antigen(BCMA),cluster of differentiation 19(CD19),cluster of differentiation 38(CD38) and kappa light chains have been evaluated,and have achieved remarkable results in clinical trials.However,even when MM is treated with CAR-T cell therapy,most patients eventually relapse,which is the greatest limitation of this therapy.This paperreviewedthe research progress,limitations and optimization of CAR-T cell immunotherapy in the treatment of MM.

Research progress of CAR-T immunotherapy in solid tumors combined with new strategies / 中国药科大学学报

@#In recent years, the chimeric antigen receptor T-cell (CAR-T) therapy has achieved breakthrough progress in the treatment of hematologic malignancies. However, when it comes to solid tumors, numerous challenges persist.These include limited CAR-T cell infiltration, susceptibility to T cell exhaustion, off-target effects, and more.Thus, novel therapeutic strategies are imperative to enhance the efficacy of CAR-T therapy for solid tumors. In comparison to standalone CAR-T approaches, the combination of CAR-T with other tumor treatment modalities has demonstrated remarkable effectiveness in both preclinical and clinical research.This review article summarizes the advancements in combining CAR-T with various solid tumor treatments: antibody drugs, oncolytic viruses, tumor vaccines, and nanomedicines.The objective is to furnish a theoretical foundation and novel perspectives for the development of innovative CAR-T combination strategies tailored for solid tumor therapy.

Advances in Emerging Therapies for Multiple Myeloma / 肿瘤防治研究

Multiple myeloma (MM) is an incurable plasma cell malignancy with a typical course characterized by response to initial treatment and eventual resistance. Despite major advances in the clinical treatment of multiple myeloma driven by the introduction of new drugs (e.g., proteasome inhibitors and immunomodulators), MM remains incurable. Nevertheless, subsequent cycles of remission and relapse continue as long as new treatments are available to patients. With the development of many new treatments, the approval of 12 new drugs over the past 15 years, and the promising trend of clinical trials, the treatment landscape has dramatically changed and patient survival has improved. This article reviews the progress of new treatments for MM.

Progress in Research and Application of CAR-T Cell Therapy in T-Lymphocyte Tumors --Review / 中国实验血液学杂志

T-lymphocyte tumors are a group of diseases containing various types of lymphatic system tumors, with strong heterogeneity and poor clinical outcomes. Chimeric antigen receptor T (CAR-T) cell therapy, as a new immune cell therapy, has made a breakthrough in the field of B-lymphocyte tumors. People are interested in the application prospect of this technique in the field of T-lymphocyte tumors. Some studies have shown that CAR-T cell therapy has made some progress in the treatment of T-lymphocyte tumors, and CAR-T for some targets has entered the stage of clinical trials. However, due to the characteristics of T cells, there are also many challenges. This article reviews the research and application of CAR-T cell therapy in T-lymphocyte tumors.

Universal chimeric Fcγ receptor T cells with appropriate affinity for IgG1 antibody exhibit optimal antitumor efficacy

Developing universal CARs with improved flexible targeting and controllable activities is urgently needed. While several studies have suggested the potential of CD16a in tandem with monoclonal antibodies to construct universal CAR-T cells, the weak affinity between them is one of the limiting factors for efficacy. Herein, we systematically investigated the impact of Fcγ receptor (FcγR) affinity on CAR-T cells properties by constructing universal CARs using Fcγ receptors with different affinities for IgG1 antibodies, namely CD16a, CD32a, and CD64. We demonstrated that the activities of these universal CAR-T cells on tumor cells could be redirected and regulated by IgG1 antibodies. In xenografted mice, 64CAR chimeric Jurkat cells with the highest affinity showed significant antitumor effects in combination with herceptin in the HER2 low expression U251 MG model. However, in the CD20 high expression Raji model, 64CAR caused excessive activation of CAR-T cells, which resulted in cytokine release syndrome (CRS) and the decline of antitumor activity, and 32CAR with a moderate affinity brought the best efficacy. Our work extended the knowledge about FcγR-based universal CAR-T cells and suggested that only the FcγRCAR with an appropriate affinity can offer the optimal antitumor advantages of CAR-T cells.

Relationship of cytokines to adverse reaction of chimeric antigen receptor T cell immunotherapy and targeted drug intervention / 中国生物制品学杂志

@#Chimeric antigen receptor T cell(CAR-T)immunotherapy is the most potential adoptive immunotherapy for malignant tumors,which needs no antigen presenting cells(APC)and is not limited by major histocompatibiliy complex(MHC). CAR-T immunotherapy not only recognizes and kills tumor cells directly,but also forms memory T cells and establishs long-term anti-tumor mechanism,of which the effect in leukemia,multiple myeloma and other non-solid tumors as well as the great potential in solid tumors have been widely verified. However,a variety of adverse reactions such as cytokine release syndrome(CRS),neurotoxicity(NT)and miss target effect are produced during CAR-T immunotherapy,of which the occurrence of CRS and NT may be related to the abnormal level of cytokines. Remarkable increase of cytokine level is a major characteristics of CRS. However,the increase of cytokines is neither the root cause nor the only result of CAR-T adverse reaction. CAR-T immunotherapy has a high incidence of adverse reaction which may even endanger the life of patients. Cytokine targeted drugs such as Anakinra and Tocilizumab may decrease the incidence of adverse reaction and improve the prognosis of patients. This paper reviews the correlation of cytokines with CRS and NT in CAR-T immunotherapy and the effect of cytokine targeting drugs,so as to provide a reference for the basic research,quality control and clinical application of CAR-T immunotherapy.

Research progress of chimeric antigen receptor T cell and T cell antigen coupler modified T cell technology / 中国生物制品学杂志

@#At present,malignant tumor has become one of the public problems that seriously threaten human health. In addition to surgery,radiotherapy,chemotherapy,targeted therapy and other methods,with the development of molecular biology,immunotherapy has also developed rapidly,becoming an emerging method of cancer treatment. The most commonly used immune cells in clinical treatment are DC,NK,CIK,CTL and chimeric antigen receptor T cell(CAR-T). Among them,CAR-T technology is the initial technology for global research,while due to its off-target,neurotoxicity,transfection vector defects and other problems,it also has certain limitations in clinical application. T cell antigen coupler modified T cell(TAC-T)technology is a new technology developed on the basis of CAR-T,which uses natural T cell receptor(TCR)to modify T cells and retarget the antigen of cancer cells. In this paper,the research status of CAR-T technology and the research progress of TAC-T technology are reviewed in order to provide reference for further study on the mechanism of TAC-T technology and its safety of clinical application.

Development strategy and clinical research progress of universal chimeric antigen receptor T-cell drugs / 中国药科大学学报

@#Chimeric antigen receptor T-cell (CAR-T) immunotherapy has made a breakthrough in the clinical treatment of a variety of hematological tumors.However, the CAR-T cell products listed at China and abroad are all autologous CAR-T.Compared with autologous CAR-T treatment, universal CAR-T exhibits significant advantages, which could fulfill the treatment demand of more patients, but also displays high technical barriers.This paper reviews the universal CAR-T, clearly points out the two major challenges faced by the development of universal CAR-T, and then summarizes and analyzes the feasible solutions according to the mechanism causing the two major problems.This paper also summarizes domestic and foreign companies producing universal CAR-T and the latest clinical progress of their superior products, and then discusses the feasibility of the development strategy from another aspect, in order to provide ideas for developing a new generation of universal CAR-T cell therapy products.

CAR-T cell therapy for multiple myeloma: a practical toolkit for treatment in Brazil

ABSTRACT Introduction Chimeric antigen receptor T (CAR-T) cell therapy is an emerging treatment option for relapsed/refractory multiple myeloma (RRMM) that is a multi-step process involving various stakeholders. Appropriate education on the practical logistics is therefore paramount to ensure treatment success. Methods A group of key opinion leaders met to explore the key elements of setting up and running a CAR-T center in Brazil. For each step in the CAR-T cell therapy process, the experts agreed on basic requirements, gave their key recommendations from practical experience, and considered any remaining unanswered questions. Results This paper presents best-practice recommendations and advice on how to overcome common challenges for each step in the CAR-T cell therapy process, with a focus on the current situation in Brazil. Key themes throughout the process are collaboration within the multidisciplinary team and with the referring physician, along with communication and education for patients and their caregivers. Conclusion We believe that the expert insights presented in this paper, in particular on optimal patient selection and timing of CAR-T cell therapy, will deepen understanding of the CAR-T process and aid implementation of this novel therapy for patients with RRMM in Brazil.

Monitoreo de las insuficiencias orgánicas en pacientes graves con hemopatías malignas por el uso de las células CAR-T / Monitoring of organ failures in critically ill patients with blood malignancies by the use of CAR - T cell

Introducción: La inmunoterapia con células T modificadas con receptor quimérico antígeno específico es un tratamiento prometedor para hemopatías malignas. Sin embargo, la activación dirigida de la respuesta inmunitaria desata en ciertos casos complicaciones específicas graves y mortales. Objetivos: Describir el monitoreo de las complicaciones por el uso de las células T con receptor antígeno quimérico en pacientes graves con hemopatías malignas. Métodos: Se realizó una investigación bibliográfico documental acerca del tema. Se consultaron las bases de datos de SciELO y PubMed de los últimos cinco años. Conclusiones: Se describieron las complicaciones derivadas de la terapia con células inmunoefectoras, que aumentan el desarrollo de insuficiencias orgánicas, a través del síndrome de liberación de citoquinas y el síndrome de toxicidad neurológica. El tratamiento se basó en establecer medidas de monitorización y soporte, tratamiento con anticonvulsivantes, corticosteroides e ingreso en los servicios de medicina intensiva de forma precoz. Se disminuyó el riesgo en la aparición de complicaciones y muerte con un adecuado monitoreo de las insuficiencias orgánicas derivadas de la inmunoterapia de células T con receptor antígeno quimérico.

Introduction: Immunotherapy with T-cells modified with antigen-specific chimeric receptor is a promising treatment for malignant hemopathies. However, the targeted activation of the immune response in certain cases unleashes specific severe and fatal complications. Objectives: To describe the monitoring of complications from the use of CAR T-cells in critically ill patients with blood malignancies. Methods: A bibliographical-documentary research on the subject was carried out. The SciELO and Pubmed databases of the last five years were consulted. Conclusions: Complications derived from the therapy with immunoeffector cells are described, which increase the development of organ failures, through the cytokine release syndrome and the neurological toxicity syndrome. Treatment is based on monitoring and support measures, treatment with anticonvulsants, corticosteroids, and early admission to intensive care. With adequate monitoring of organ failure derived from chimeric antigen receptor T-cell immunotherapy, a decreased risk of complications and death in these patients was carried out.

Research Progress of Multi-target CAR-T Cell Therapy for Cancer / 肿瘤防治研究

Chimeric antigen receptor T cell (CAR-T) is a kind of adoptive cell immunotherapy, in which T cells are genetically modified to exert targeted killing effect on tumors. CAR-T cell therapy has shown remarkable antitumor efficacy for the treatment of tumors, especially for hematological malignancies, but is less effective in solid tumors. Single-target CAR-T is prone to off-target effect during application, and there is a risk of relapse or more refractory treatment. The development of double-target or multi-target CAR-T is expected to extend the antigen coverage of target cells, effectively avoids antigen escape and prevents tumor recurrence, and prolongs the survival time of patients. This article reviews the advances of multi-target chimeric antigen receptor T cell, and discusses the prospect of its development.

Phase I study of CBM.CD19 chimeric antigen receptor T cell in the treatment of refractory diffuse large B-cell lymphoma in Chinese patients / 医学前沿

Anti-CD19 chimeric antigen receptor (CAR) T cell therapy has shown impressive efficacy in treating B-cell malignancies. A single-center phase I dose-escalation study was conducted to evaluate the safety and efficacy of T cells transduced with CBM.CD19 CAR, a second-generation anti-CD19 CAR bearing 4-1BB costimulatory molecule, for the treatment of patients with refractory diffuse large B-cell lymphoma (DLBCL). Ten heavily treated patients with refractory DLBCL were given CBM.CD19 CAR-T cell (C-CAR011) treatment. The overall response rate was 20% and 50% at 4 and 12 weeks after the infusion of C-CAR011, respectively, and the disease control rate was 60% at 12 weeks after infusion. Treatment-emergent adverse events occurred in all patients. The incidence of cytokine release syndrome in all grades and grade ⩾ 3 was 90% and 0, respectively, which is consistent with the safety profile of axicabtagene ciloleucel and tisagenlecleucel. Neurotoxicity or other dose-limiting toxicities was not observed in any dose cohort of C-CAR011 therapy. Antitumor efficacy was apparent across dose cohorts. Therefore, C-CAR011 is a safe and effective therapeutic option for Chinese patients with refractory DLBCL, and further large-scale clinical trials are warranted.

Immune reconstitution in patients with allogeneic hematopoietic stem cell transplantation after CAR-T immunotherapy / 中华检验医学杂志

Objective:To study the performance of immune reconstitution in patients with chimeric antigen receptor (CAR)-T cell immunotherapy bridging allogeneic hematopoietic stem cell transplantation (allo-HSCT).Methods:A total of 61 patients with acute B lymphocytic leukemia (B-ALL) who received CAR-T cell bridging allo-HSCT in Beijing Lu Daopei Hospital from August 2018 to December 2021 were enrolled, and the clinical medical records of the above patients were retrospectively analyzed. The average age was 14 (7, 30) years old, including 39 males and 22 females. 32 patients were treated with CAR-T cell immunotherapy(CAR-T Group) and 29 didn't with CAR-T cell immunotherapy(non-CAR-T group). The follow-up period was 561 (235,784) days. Multicolor flow cytometry was used to detect the peripheral blood lymphocyte subsets, i.e. total lymphocytes, T lymphocytes, helper T cells, cytotoxic T cells, B lymphocytes, NK cells, and Treg cell counts before transplantation and 1, 2, 3, 6, 8, 10, and 12 months after transplantation, to evaluate the immune reconstitution performance post allo-HSCT.Results:Serum globulin before transplantation: The IgA level in the CAR-T group was 0.18 (0.06, 0.49) g/L, which was lower than that of 1.03 (0.63, 1.56) g/L in the non-CAR-T group ( U=103.5, P<0.001). The IgG level in the CAR-T group was 5.54 (4.04, 7.09) g/L, lower than that of 6.78 (5.27, 9.26) g/L in the non-CAR-T group, ( U=1 298.5, P=0.017), and the IgM level in the CAR-T group was 0.18 (0.05, 0.30) g/L, lower than that of 0.40 (0.26, 0.71) g/L in the non-CAR-T group ( U=166.0, P<0.001). In the CAR-T group before transplantation, the absolute count of total lymphocyte in peripheral blood was 833.00 (335.00, 1 727.50) /μl, lower than that of 1 052.00 (545.75, 1 812.50) /μl in the non-CAR-T group ( U=404.0, P<0.001). The absolute count of T lymphocyte in the CAR-T group before transplantation was 686.00 (233.00, 1 307.00)/μl, lower than that of 860.00 (391.00, 1 419.75) /μl in the non-CAR-T group ( U=406.0, P<0.001). The absolute count of helper T lymphocytes in the CAR-T group was 146.00 (40.50, 327.50) /μl, lower than that of 162.50 (66.00, 384.75) /μl in the non-CAR-T group ( U=494.0, P=0.002). The absolute count of cytotoxic T lymphocytes in the CAR-T group was 343.00 (56.50, 924.00) /μl, lower than that of 478.00 (143.50, 992.25) /μl in the non-CAR-T group ( U=483.5, P=0.001). The absolute count of B lymphocytes in CAR-T group was 22.00 (6.00, 186.00) /μl, lower than that of 33.00 (8.00, 220.00) /μl in the non-CAR-T group ( U=498.0, P=0.002). And when two groups of patients were monitored after transplantation, there was no statistical difference in absolute cell counts of each immune cell subpopulation( P>0.05). Comparing the clinical features of the two groups, the pre-transplant history of the CAR-T group was 981.00 (368.50, 1 514.75) d, longer than that of 323.00 (167.50, 450.50) d in the non-CAR-T group ( U=263.0, P=0.004). The dose of rabbit anti-human thymic immunoglobulin (ATG) in the pretreatment protocol of patients in the CAR-T group was 5.00 (5.00, 7.50) mg/Kg, lower than that of 7.00 (5.00, 7.50) mg/kg in the non-CAR-T group ( U=288.5, P=0.018). The infusion dose of CD34 +cells in the CAR-T group was 5.91 (4.23, 6.02) ×10 6/kg, higher than that of 4.51 (4.00, 5.93)×10 6/kg in the non-CAR-T group ( U=291.0, P=0.012). The duration of the application of cyclosporine after transplantation in the CAR-T group was 167.00 (119.25, 299.50) d, which was shorter than that of 197.00 (102.50, 450.50) d in the non-CAR-T group ( U=421.0, P=0.001). Conclusions:For patients in CAR-T group with low immune function before transplantation, it may be possible to make them comparable to non-CAR-T group in immune reconstitution state by reducing the dose of pretreatment ATG, increasing the counts of CD34 + cells infusion in the graft, and discontinuing cyclosporine as soon as possible after transplantation.

Chimeric antigen receptor T-associated cytokines release syndrome managed by therapeutic plasma exchange and tumor necrosis factor inhibitors: a case report / 中国输血杂志

【Objective】 To learn more about the role of therapeutic plasma exchange in the management of cytokines release syndrome(CRS) after chimeric antigen receptor T(CAR-T) infusion by reviewing and analyzing the diagnosis and treatment of one case. 【Methods】 The diagnosis and treatment of lymphoma patients with CAR-T infusion related CRS were described, and case analysis was carried out by searching PubMed, Elsevier, Wiley, CNKI, and other databases for relevant guidelines, clinical trials, and case reports. 【Results】 The patient was diagnosed with follicular cell lymphoma. Progressive disease(PD) was assessed after multiple courses of treatment, and anti-CD19/20 CAR-T cell therapy was administered.The patient developed a high fever and chills, secondary dyspnea and hypotension at night on the day of infusion, and the inflammatory factors such as C-reactive protein(CRP) and interleukin-6(IL-6) increased sharply, suggesting the occurrence of cytokines release syndrome(CRS). After the patient was given symptomatic antipyretic, broad-spectrum anti-infection, tumor necrosis factor(TNF) antibody and three occasions of plasma exchange, the clinical manifestations of CRS gradually relieved. Three months after discharge, the patient was in complete response(CR). 【Conclusion】 CAR-T-associated CRS is a serious cellular immunotherapy-related toxicity that can result in multiple organ failure or even death in patients. Therapeutic plasma exchange may be a potential treatment for some patients with severe CRS.

Research progress of EGFRvIII targeted immunotherapy in the treatment of glioblastoma / 药学学报

Glioblastoma (GBM) is the most common primary brain tumor, which is prone to recurrence and metastasis with poor prognosis. In recent years, immunotherapy has prolonged the survival of patients with GBM, providing a new option for the treatment of GBM. Target selection is very important for immunotherapy. Epidermal growth factor receptor variant III (EGFRvIII) is highly expressed on the surface of GBM cells in some patients, and EGFRvIII was not expressed in normal tissues. EGFRvIII are pivotal for the occurrence and progression of GBM, various targeted therapy including immunotherapy is promising to improve the efficacy of GBM. Currently, there are various approaches to target EGFRvIII, including humanized monoclonal antibodies, adoptive cell therapies and therapeutic vaccines. In this review, we focus on the preclinical and clinical findings of targeting EGFRvIII for GBM.

Research progress on combined treatment of immunotherapy of immune checkpoint molecules and CAR-T cells for solid tumors / 中国肿瘤生物治疗杂志

@#[摘 要] 免疫检查点分子是一组表达于免疫细胞表面，主要调控免疫细胞稳态的分子。嵌合抗原受体修饰的T细胞（CAR-T）免疫疗法是通过生物技术构建表达特异性抗原的人工合成T细胞，实现肿瘤靶向杀伤的免疫治疗技术。CAR-T治疗策略已在血液肿瘤临床治疗中取得了较好的疗效，但针对实体肿瘤的CAR-T免疫治疗技术有待进一步研究完善。本文就免疫检查点分子联用CAR-T免疫疗法在实体肿瘤治疗中面临的问题及新进展进行综述。

Advances in research on visualization of living cell drugs in vivo / 中国药科大学学报

@#The development of living cell drugs and their successful application in clinical treatments require full clarification of the fate of cells after transplantation, which is critical to the safety and efficacy of living cell drugs.In order to solve this problem, cell imaging technology has come into our sight, and the use of visualization technology for non-invasive tracing of living cell drugs could reveal the distribution, homing and activity of living cell drugs in the body, which helps to determine the best number of transplanted cells, optimize the administration scheme, improve the transplantation efficiency, enhance the targeting of transplanted cells, and reduce the potential off-target accumulation risk.This paper summarizes the research advances of non-invasive visual tracing in vivo for living cell drugs from the perspectives of radionuclide imaging, magnetic resonance imaging, magnetic particle imaging, computed tomography imaging, fluorescence imaging and multimodal imaging.The aim is to obtain the biological behavior of living cell drugs in vivo with the application of appropriate contrast agent and tracing technology, and provide a more reasonable scientific basis for the research and development of living cell drugs and their transplantation therapy.