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.

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.

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.

Terapia com células CAR-T: reprogramação celular para o combate de neoplasias malignas / CAR-T cell therapy: cell reprogramming to combat malignant neoplasms

As células CAR-T são linfócitos geneticamente modificados para reconhecerem um espectro amplo de antígenos de superfície celulares. Além disso, atacam células tumorais malignas, que expressam esses antígenos, por meio da ativação da coestimulação citoplasmática, secreção de citocinas, citólise de células tumorais e proliferação de células T. O objetivo desse estudo é abordar a imunoterapia com células CAR-T, a fim de explicar seu conceito, processo de fabricação e papel no tratamento de neoplasias hematológicas e tumores sólidos. Foi realizada uma revisão através do portal PubMed, utilizando como descritores: "car-t cell therapy" e "neoplasms", determinados com base nos "Descritores em Ciências da Saúde". Foram obtidos, inicialmente, 10 artigos, os quais foram lidos integralmente para a confecção dessa revisão. Além disso, foram adicionados 3 ensaios clínicos atualizados sobre o tema. Na terapia com células CAR-T, as células T são coletadas do paciente, geneticamente modificadas para incluir receptores de antígeno específicos e, posteriormente, expandidas em laboratórios e transfundidas de volta para o paciente. Assim, esses receptores podem reconhecer células tumorais que expressam um antígeno associado a um tumor. A terapia com células CAR-T é mais conhecida por seu papel no tratamento de malignidades hematológicas de células B, sendo a proteína CD19 o alvo antigênico mais bem estudado até o momento. Entretanto, estudos estão sendo feitos para verificar a eficácia desse tratamento, também, em tumores sólidos. Portanto, apesar de inicialmente ser indicada apenas para um grupo seleto de pessoas, essa terapia tem demonstrado grande potencial para atuar em um espectro maior de pacientes.

The CAR-T cells are lymphocytes genetically modified to recognize a broader spectrum of cell surface antigens. In addition, they attack malignant tumor cells, which express these antigens, by activating cytoplasmic co-stimulation, cytokine secretion, tumor cell cytolysis and T cell proliferation. The aim of this study is to address immunotherapy with CAR-T cells, in order to explain its concept, manufacturing process and role in the treatment of hematological neoplasms and solid tumors. This is a literature review conducted through the PubMed portal, that uses the terms "car-t cell therapy" and "neoplasms" as descriptors, determined based on the DeCS (Descritores em Ciências da Saúde). To prepare this review, initially 10 articles were found and read in full. In addition, 3 updated clinical trials on the subject were added. For CAR-T cell therapy, T cells are collected from the patient, genetically modified to include specific antigen receptors, and later expanded in laboratories and transfused back to the patient. Thus, these receptors can recognize tumor cells that express a tumor-associated antigen. CAR-T cell therapy is best known for its role in the treatment of B cell hematological malignancies, with the CD19 protein being the most studied antigenic target to date. However, studies are being conducted to verify the effectiveness of this treatment, also, in solid tumors. Therefore, despite being formulated only for a selected group of patients, this therapy has great potential to act on a broader spectrum of patients.

Advances of multi-targeted chimeric antigen receptor T cells in malignant tumors / 中国肿瘤临床

China has the highest incidence of malignant tumors and associated mortality worldwide; efforts are underway to reduce their recurrence rate and fatality. However, single-target chimeric antigen receptor (CAR) T cells used in the treatment of malignant tumors are prone to antigen target loss, tumor recurrence, and other limitations. Presently, multi-target CAR-T cells that can identify and target two or more tumor-related antigens have been developed in China and in the rest of the world; these cells can be used to effectively avoid antigen escape and prevent tumor recurrence. In this review, we have focused on the progress in multi-target CAR-T strategies currently being developed and tested for the treatment of malignant tumors. We have also discussed the advantages of multi-targeted CAR-T cell therapies and measures to overcome limitations, such as tumor recurrence after single-targeted CAR-T-cell treatment; we have also analyzed the therapeutic effects of multi-targeted CAR-T-cell treatments combined with other regimen. The use of multi-target CAR-T cells as a new therapeutic option to improve anticancer efficacy and reduce cancer progression, has also been proposed.

Research progress on CAR T-cell neurologic toxicity / 中国输血杂志

Chimeric antigen receptor (CAR) T-cell therapy is an effective new treatment for hematologic malignancies. Currently, two CAR T-cell products have been approved for clinical use by the U. S. FDA. A barrier to widespread use of CAR T-cell therapy is post-infusion toxicity, including primarily cytokine release syndrome and neurologic toxicity, in which neurotoxicity is the main factor for incidence rate and mortality rate.As there is still a lack of pathophysiological research on this symptom, this review describes existing neurologic toxicity and insights into the pathophysiology of this syndrome, which provides new opportunities for targeted therapeutic interventions to modulate CAR T-cell therapy toxicities.

Precision medicine in acute lymphoblastic leukemia / 医学前沿

The cure rate of childhood acute lymphoblastic leukemia (ALL) has exceeded 90% in some contemporary clinical trials. However, the dose intensity of conventional chemotherapy has been pushed to its limit. Further improvement in outcome will need to rely more heavily on molecular therapeutic as well as immuno-and cellular-therapy approaches together with precise risk stratification. Children with ETV6-RUNX1 or hyperdiploid > 50 ALL who achieve negative minimal residual disease during early remission induction are suitable candidates for reduction in treatment. Patients with Philadelphia chromosome (Ph)-positive or Ph-like ALL with ABL-class fusion should be treated with dasatinib. BH3 profiling and other preclinical methods have identified several high-risk subtypes, such as hypodiplod, early T-cell precursor, immature T-cell, KMT2A-rearranged, Ph-positive and TCF-HLF-positive ALL, that may respond to BCL-2 inhibitor venetoclax. There are other fusions or mutations that may serve as putative targets, but effective targeted therapy has yet to be established. For other high-risk patients or poor early treatment responders who do not have targetable genetic lesions, current approaches that offer hope include blinatumomab, inotuzumab and CAR-T cell therapy for B-ALL, and daratumumab and nelarabine for T-ALL. With the expanding therapeutic armamentarium, we should start focus on rational combinations of targeted therapy with non-overlapping toxicities.