Relevant nursing measures for the adverse reactions associated with chimeric antigen receptor T cells(CAR-T) immunotherapy: a systematic review of case reports

Objective: Cytokine release syndrome (CRS) and tumor lysis syndrome (TLS) that occur after chimeric antigen receptor T (CAR-T) cells are reinfused, which severely affect the survival and prognosis of patients. Although several articles have reported on the care of CAR-T cell immunotherapy, the quality of the study and the effectiveness of holistic nursing interventions have not been systematically reviewed. The purpose of this study was to systematically evaluate the existing holistic nursing interventions of CAR-T cell immunotherapy. Methods: A literature search for keywords was performed in PubMed, EMBASE, the Cochrane Library, CNKI, CBM, and Wanfang Data from its inception until January 2018. Studies were deemed eligible if they comprised patients with tumor receiving CAR-T cell immunotherapy, described the holistic nursing process, and were published in Chinese and English. Results: A total of 6 articles on holistic nursing interventions of CAR-T cell immunotherapy are reported, and the nursing methods and results of each article are analyzed. The quality of the studies included was medium. All nursing measures were considered effective. Conclusions: Holistic nursing programs reduce the incidence of CRS and TLS and improve the quality of life of cancer patients.

T cells expressing a LMP1-specific chimeric antigen receptor mediate antitumor effects against LMP1-positive nasopharyngeal carcinoma cells in vitro and in vivo

T cells modified with chimeric antigen receptor are an attractive strategy to treat Epstein-Barr virus（EBV） associated malignancies.The EBV latent membrane protein 1（LMP1） is a 66-KD integral membrane protein encoded by EBV that consists of transmembrane-spanning loops.Previously,we have identified a functional signal chain variable fragment（scFv） that specifically recognizes LMP1 through phage library screening.Here,we constructed a LMP1 specific chimeric antigen receptor containing anti-LMP1 scFv,the CD28 signalling domain,and the CD3ζchain（HELA/CAR）.We tested its functional ability to target LMP1 positive nasopharyngeal carcinoma cells.HELA/CAR cells were efficiently generated using lentivirus vector encoding the LMP1-specific chimeric antigen receptor to infect activated human CD3＋ T cells.The HELA/CAR T cells displayed LMP1 specific cytolytic action and produced IFN-γ and IL-2 in response to nasopharyngeal carcinoma cells overexpressing LMP1.To demonstrate in vivo anti-tumor activity,we tested the HELA/CAR T cells in a xenograft model using an LMP1 overexpressing tumor.Intratumoral injection of anti-LMP1 HELA/CAR-T cells significantly reduced tumor growth in vivo.These results show that targeting LMP1 using HELA/CAR cells could represent an alternative therapeutic approach for patients with EBV-positive cancers.

Focused evaluation of the roles of macrophages in chimeric antigen receptor (CAR) T cell therapy associated cytokine release syndrome

Cytokine release syndrome(CRS)is a major obstacle to the widespread clinical application of chimeric antigen receptor(CAR)T cell therapies.CRS can also be induced by infections(such as SARS-CoV-2),drugs(such as therapeutic antibodies),and some autoimmune diseases.Myeloid-derived macrophages play key roles in the pathogenesis of CRS,and participate in the production and release of the core CRS cytokines,including interleukin(IL)-1,IL-6,and interferon-γ.In this review,we summarize the roles of macrophages in CRS and discuss new developments in macrophage activation and the related mechanisms of cytokine regulation in CRS.

Chimeric antigen receptor-engineered T-cell therapy for liver cancer

Background: Chimeric antigen receptor-engineered T-cell(CAR-T) therapy is a newly developed immunotherapy used in the treatment of cancers. Because CAR-T therapy has shown great success in treating CD19-positive hematological malignancies, its application has been explored in the treatment of solid tumors, such as liver cancer. In this review, we discuss the immune characteristics of liver cancer, the obstacles encountered during the application of CAR-T therapy, and preclinical and clinical progress in the use of CAR-T therapy in patients with liver cancer.Data sources: The data on CAR-T therapy related to liver cancers were collected by searching Pub Med and the Web of Science databases prior to December 2017 with the keywords "chimeric antigen receptor","CAR-T", "liver cancer", "hepatocellular carcinoma", and "solid tumor". Additional articles were identified by manual search of references found in the primary articles. The data for clinical trials were collected by searching Clinical Trials.gov.Results: The liver has a tolerogenic nature in the intrahepatic milieu and its tumor microenvironment significantly affects tumor progression. The obstacles that reduce the efficacy of CAR-T therapy in solid tumors include a lack of specific tumor antigens, limited trafficking and penetration of CAR-T cells to tumor sites, and an immunosuppressive tumor microenvironment. To overcome these obstacles, several strategies have emerged. In addition, several strategies have been developed to manage the side effects of CAR-T, including enhancing the selectivity of CARs and controlling CAR-T activity. To date, no clinical trials of CAR-T therapy against HCC have been completed. However, preclinical studies in vitro and in vivo have shown potent antitumor efficacy. Glypican-3, mucin-1, epithelial cell adhesion molecule, carcinoembryonic antigen, and other targets are currently being studied.Conclusions: The application of CAR-T therapy for liver cancer is just beginning to be explored and more research is needed. However, we are optimistic that CAR-T therapy will offer a new approach for the treatment of liver cancers in the future.

The human application of gene therapy to re-program T-cell specificity using chimeric antigen receptors

The adoptive transfer of T cells is a promising approach to treat cancers. Primary human T cells can be modified using viral and non-viral vectors to promote the specific targeting of cancer cells via the introduction of exogenous T-cell receptors(TCRs) or chimeric antigen receptors(CARs). This gene transfer displays the potential to increase the specificity and potency of the anticancer response while decreasing the systemic adverse effects that arise from conventional treatments that target both cancerous and healthy cells. This review highlights the generation of clinical-grade T cells expressing CARs for immunotherapy, the use of these cells to target B-cell malignancies and, particularly, the first clinical trials deploying the Sleeping Beauty gene transfer system, which engineers T cells to target CD19+ leukemia and non-Hodgkin's lymphoma.

Chimeric Antigen Receptors and Regulatory T Cells:The Potential for HLA-Specific Immunosuppression in Transplantation

Chimeric antigen receptors(CARs)are a breakthrough in genetic engineering that have revolutio nized the field of adoptive cellular therapy(ACT).Cells expressing these receptors are rerouted to a predefined target by the inclusion of an antigen-specific binding region within the synthetic CAR construct.The advantage of cells with programmed specificity has been demonstrated clinically in the field of oncology,and it is clear that such cells have greater accuracy,potency,and reduced off-target therapeutic effects compared with their unmodified counterparts.In contrast to conventional T cells(Tconvs),regulatory T cells(Tregs)play a major role in suppressing immune activation and regulating the host immune response.CAR expression within Tregs has been proposed as a therapy for autoimmune and inflammatory diseases,graft-versus-host disease(GVHD),and organ transplant rejectio n.In the latter,they hold immense potential as mediators of immune tolerance for recipients of allotransplants.However,current research into CAR-Treg engineering is extremely limited,and there is uncertainty regarding optimal design for therapeutic use.This review examines the rationale behind the development of CAR-Tregs,their significance for human transplantation,potential designs,safety considerations,and comparisons of CAR-Tregs in transplantation models to date.

Chidamide and sintilimab combination in diffuse large B-cell lymphoma progressing after chimeric antigen receptor T therapy

BACKGROUND Diffuse large B-cell lymphoma(DLBCL)is curable with first-line chemoimmunotherapy but patients with relapsed/refractory(R/R)DLBCL still face a poor prognosis.For patients with R/R DLBCL,the complete response rate to traditional next-line therapy is only 7%and the median overall survival is 6.3 mo.Recently,CD19-targeting chimeric antigen receptor T cells(CAR-T)have shown promise in clinical trials.However,approximately 50%of patients treated with CAR-T cells ultimately progress and few salvage therapies are effective.CASE SUMMARY Here,we report on 7 patients with R/R DLBCL whose disease progressed after CAR-T infusion.They received a PD-1 inhibitor(sintilimab)and a histone deacetylase inhibitor(chidamide).Five of the 7 patients tolerated the treatment without any serious adverse events.Two patients discontinued the treatment due to lung infection and rash.At the 20-mo follow-up,the median overall survival of these 7 patients was 6 mo.Of note,there were 2 complete response rates(CRs)and 2 partial response rates(PRs)during this novel therapy,with an overall response rate(ORR)of 57.1%,and one patient had a durable CR that lasted at least 20 mo.CONCLUSION In conclusion,chidamide combined with sintilimab may be a choice for DLBCL patients progressing after CD19-targeting CAR-T therapy.

Refractory lymphoma treated with chimeric antigen receptor T cells combined with programmed cell death-1 inhibitor:A case report

BACKGROUND Diffuse large B-cell lymphoma(DLBCL)is a common aggressive non-Hodgkin's lymphoma(NHL),accounting for 30%-40%of adult NHL.Primary testicular(PT)lymphoma is an uncommon extranodal disease representing approximately 1%-2%of lymphoma.Approximately 30%–40%of patients are refractory to frontline therapy or relapse after complete remission.Refractory DLBCL responds poorly to other lines of chemotherapy,and experiences short-term survival.CASE SUMMARY We present a 41-year-old male patient who was diagnosed with PT-DLBCL.Further disease progression was observed after multiline chemotherapy.Chimeric antigen receptor T cells(CAR-T)therapy salvaged the patient.Unfortunately,a new mass was observed in the right adrenal area after six months.The patient was administered programmed cell death protein-1(PD-1)inhibitor therapy and maintained progression-free survival at more than 17 mo of follow-up.CONCLUSION Our findings support the potential benefit of CAR-T combined with PD-1 inhibitor therapies in this type of relapsed and refractory PT-DLBCL.

Programmed cell death protein-1 inhibitor combined with chimeric antigen receptor T cells in the treatment of relapsed refractory non- Hodgkin lymphoma: A case report

BACKGROUND Chimeric antigen receptor T cell(CART)therapy has benefited many refractory lymphoma patients,but some patients experience poor effects.Previous studies have shown that programmed cell death protein-1(PD-1)inhibitors can improve and prolong the therapeutic effect of CAR-T cell treatment.CASE SUMMARY A 61-year-old male presented with 15-d history of diarrhea and lower-limb edema.A large mass was detected in the pelvis,and pathology indicated non-Hodgkin diffuse large B-cell lymphoma.After three cycles of the R-CHOP chemotherapeutic regimen,the patient showed three subcutaneous nodules under the left armpit and both sides of the cervical spine.Pathological examination of the nodules indicated DLBCL again.The patient was diagnosed with relapsed and refractory diffuse large B-cell lymphoma.We recommended CAR-T cell treatment.Before treatment,the patient’s T cell function and expression of immune detection points were tested.Expression of PD-1 was obviously increased(52.7%)on cluster of differentiation(CD)3+T cells.The PD-1 inhibitor(3 mg/kg)was infused prior to lymphodepleting chemotherapy with fludarabine and cyclophosphamide.CAR-CD19 T cells of 3×10^(6)/kg and CAR-CD22 T cells 1×10^(6)/kg were infused,respectively.The therapeutic effect was significant,and the deoxyribonucleic acid copy numbers of CAR-CD19 T cells and CAR-CD22 T cells were stable.Presently,the patient has been disease-free for more than 12 mo.CONCLUSION This case suggests that the combination of PD-1 inhibitors and CAR-T cellsimproved therapeutic efficacy in B-cell lymphoma.

BCMA CAR-T治疗复发/难治性多发性骨髓瘤患者的长期疗效和影响因素分析

目的:评价靶向B细胞成熟抗原(B cell maturation antigen,BCMA)嵌合抗原受体T细胞(chimeric antigen receptor-T cell,CAR-T)治疗复发/难治性多发性骨髓瘤(relapsed/refractory multiple myeloma,R/R MM)的长期疗效和安全性。方法:回顾性分析2018年7月至2023年7月在南昌大学第一附属医院接受BCMA CAR-T细胞治疗20例R/R MM患者的临床资料,随访日期截至2023年12月31日。应用Kaplan-Meier生存分析评估患者总生存(overall survival,OS)率和无进展生存(progression-free survival,PFS)率,并统计相关不良反应。结果:20例R/R MM患者,既往中位治疗线数为3(2~6)线,客观缓解率(objective response rate,ORR)为75%,完全缓解(complete response,CR)率为50%;中位随访时间29个月,中位PFS为26个月。10例CR的患者中,5例在末次随访时仍处于缓解状态,缓解持续时间最短为6个月,最长48个月。亚组分析中,髓外浸润、17p缺失遗传学异常和肿瘤高负荷患者PFS显著更差(P<0.05)。细胞因子释放综合征(cytokine release syndrome,CRS)是CAR-T细胞治疗最常见的不良反应,发生率为90%,3~4级CRS的发生率为35%;远期不良反应少,未发生CAR-T细胞治疗相关死亡。结论:BCMA CAR-T细胞是当前R/R MM治疗的有效方案,不良反应可控。髓外浸润和肿瘤高负荷的患者治疗有效,但持久反应欠佳,如何进一步巩固和维持患者的疗效,值得进一步设计前瞻性的临床研究并探究其差异性。

IL-7的诱导表达增强靶向GPC3 CAR-T细胞的增殖及体外抗肿瘤活性

目的:探讨IL-7的诱导表达对靶向磷脂酰肌醇蛋白聚糖3(GPC3)嵌合抗原受体基因修饰T淋巴细胞(CAR-T细胞)的增殖和体外抗肿瘤活性的影响。方法:通过无缝克隆将GPC3 CAR序列片段插入GV400载体的Bam HⅠ/Eco RⅠ位置,构建第二代CAR慢病毒载体GPC3-BBZ及GPC3-BBZ-NFAT-IL-7,以293T细胞包装相应的慢病毒载体后,感染人T细胞制备CAR-T细胞。实验分为未转导T细胞(NT)组、GPC3-BBZ CAR-T细胞组、GPC3-BBZ-NFAT-IL-7 CAR-T细胞组。采用流式细胞术检测各组CAR-T细胞中CAR的表达水平,qPCR法检测经GPC3蛋白激活的CAR-T细胞中IL-7 m RNA的表达水平,细胞计数法检测CAR-T细胞在GPC3抗原刺激下的增殖能力,ELISA检测CAR-T细胞在受到肿瘤细胞刺激后IL-7、IFN-γ和TNF-α的分泌水平。应用实时细胞分析(RTCA)技术检测CAR-T细胞对人肝癌Huh-7细胞的杀伤作用。结果:成功构建慢病毒载体GPC3-BBZ和GPC3-BBZ-NFAT-IL-7,制备出靶向GPC3的CAR-T细胞。经GPC3抗原激活后,GPC3-BBZ-NFAT-IL-7 CAR-T细胞可有效表达IL-7 mRNA(P<0.01),其表现出更强的增殖能力(P<0.05)。与GPC3-BBZ CAR-T细胞相比,GPC3-BBZ-NFAT-IL-7 CAR-T细胞与GPC3阳性靶细胞Huh-7细胞共培养后,分泌更高水平的IL-7、IFN-γ和TNF-α(P<0.01或P<0.001)。RTCA结果显示,GPC3-BBZ-NFAT-IL-7 CAR-T细胞对GPC3阳性Huh-7细胞的杀伤活性显著高于GPC3-BBZ CAR-T细胞(P<0.05)。结论:成功制备可诱导表达IL-7的靶向GPC3的CAR-T细胞,IL-7的诱导表达增强靶向GPC3 CAR-T细胞的免疫活性,在体外展现出较强的肿瘤细胞杀伤能力。

CAR-T细胞治疗在儿童中的毒副作用

嵌合抗原受体(CAR)-T细胞因其特异性识别功能及细胞毒性,已成为治疗恶性肿瘤最有前途的方法之一,但它也具有一系列的毒副作用,特别是对儿童,毒性反应发展迅速,严重者还会危及生命。本文对CAR-T细胞治疗在儿童中的毒副作用,及其临床表现和治疗等方面进行概述,旨在优化其在儿童中的应用。

儿童CAR-T细胞治疗的挑战与展望

嵌合抗原受体T细胞(CAR-T)首次应用于治疗急性淋巴细胞白血病复发患儿已有10年余,至今全世界范围内已有成千上万的患者从中受益,CAR-T细胞治疗在很大程度上提高了复发、难治儿童急性淋巴细胞白血病患者的整体预后,同时也正在逐渐改变着复发、难治儿童血液肿瘤患者的治疗历史。目前的研究显示,儿童CAR-T细胞治疗前景光明,但临床上仍面临着一些挑战。

Adoptive immunotherapy for acute leukemia:New insights in chimeric antigen receptors

Relapses remain a major concern in acute leukemia. It is well known that leukemia stem cells(LSCs) hide in hematopoietic niches and escape to the immune system surveillance through the outgrowth of poorly immunogenic tumor-cell variants and the suppression of the active immune response. Despitethe introduction of new reagents and new therapeutic approaches, no treatment strategies have been able to definitively eradicate LSCs. However, recent adoptive immunotherapy in cancer is expected to revolutionize our way to fight against this disease, by redirecting the immune system in order to eliminate relapse issues. Initially described at the onset of the 90's, chimeric antigen receptors(CARs) are recombinant receptors transferred in various T cell subsets, providing specific antigens binding in a non-major histocompatibility complex restricted manner, and effective on a large variety of human leukocyte antigen-divers cell populations. Once transferred, engineered T cells act like an expanding "living drug" specifically targeting the tumor-associated antigen, and ensure long-term antitumor memory. Over the last decades, substantial improvements have been made in CARs design. CAR T cells have finally reached the clinical practice and first clinical trials have shown promising results. In acute lymphoblastic leukemia, high rate of complete and prolonged clinical responses have been observed after anti-CD19 CAR T cell therapy, with specific but manageable adverse events. In this review, our goal was to describe CAR structures and functions, and to summarize recent data regarding pre-clinical studies and clinical trials in acute leukemia.

CAR-T细胞免疫疗法在实体瘤中的研究进展

嵌合抗原受体T细胞(chimeric antigen receptor T cell,CAR-T)成功治疗复发难治性白血病的历史已超过十年,如今,已有多款CAR-T细胞疗法获批用于治疗白血病和淋巴瘤等血液系统癌症,标志着免疫细胞治疗时代的到来。大量研究结果提示,CAR-T细胞疗法在实体瘤治疗领域同样充满潜力,但相关临床研究数据却不令人满意。CAR-T细胞疗法在实体瘤中面临靶抗原特异性不足、肿瘤物理屏障、异常代谢及免疫抑制性肿瘤微环境等多重不利因素,需要继续深入相关机制的研究,借助基因工程技术对CAR-T细胞进行改造,进一步提升其对实体瘤的疗效。本文就近年来CAR-T细胞疗法在实体瘤中的研究进展做一述评,探讨未来CAR-T细胞治疗的挑战和发展方向。

CD19/CD22 CAR-T细胞治疗MLL基因重排阳性难治/复发儿童急性B系淋巴细胞白血病临床分析

目的 分析双靶点CD19/CD22嵌合抗原受体T(CAR-T)细胞治疗混合谱系白血病基因重排(MLL-r)阳性难治/复发急性B系淋巴细胞白血病(R/R B-ALL)患儿的有效性及安全性。方法 回顾性分析2019年10月至2021年11月接受双靶点CD19/CD22 CAR-T治疗的MLL-r阳性R/R B-ALL患儿的临床资料。结果 共纳入37例MLL-r阳性R/R B-ALL患儿,男24例、女13例,诊断时中位年龄1.2(0.5~2.6)岁,其中17例(45.9%)为婴儿白血病。CAR-T细胞输注后中位时间9(7~13)天,37例患儿的完全缓解率达100%。中位随访时间28.2(11.3~30.9)个月,3年总体生存(OS)率为67.6%(95%CI:52.5%~82.7%),3年无事件生存率为59.5%(95%CI:43.6%~75.4%)。75.7%(28/37)的患者在CAR-T细胞治疗后接受过异基因造血干细胞移植,移植距离CAR-T细胞输注的中位时间为83(61~92)天。接受巩固性移植与未接受患儿的2年OS分别为75.0%(95%CI:58.9~91.1%)与44.4%(95%CI:11.9%~76.9%),差异无统计学意义(P=0.068)。35.1%(13/37)的患儿复发,中位复发时间为156(86~202)天,其中4例为CD19、CD22双阳性复发,2例CD19、CD22双阴性复发,4例单纯CD19阴性复发,1例淋系向髓系转化,另2例不明确。97.3%(36/37)患儿发生了细胞因子释放综合征,11例(29.7%)达到了3~4级,5例(13.5%)患儿出现了免疫效应细胞相关神经毒性综合征;无CAR-T细胞治疗合并症导致的死亡。结论 CD19/CD22 CAR-T细胞治疗可有效诱导MLL-r阳性儿童R/R B-ALL获得快速缓解,且不良反应可耐受。

靶向CD99的CAR-T细胞扩增优化研究

背景与目的:嵌合抗原受体T(chimeric antigen receptor T,CAR-T)细胞疗法对血液和淋巴系统肿瘤的治疗效果显著,但对实体瘤效果较差,这与靶点选择的因素有关。针对尤因肉瘤(Ewing sarcoma,ES),CD99可作为CAR-T细胞潜在的靶点。由于T细胞自身表达CD99蛋白,靶向CD99的CAR-T细胞存在体外扩增能力有限的问题。本研究旨在通过增加CD99敲低的短发夹RNA(short hairpin RNA,shRNA)、优化慢病毒转导的感染复数(multiplicity of infection,MOI)、筛选培养CAR-T细胞的培养基及培养容器,以获得CD99 CAR-T细胞制备的最优条件。方法:筛选shRNA序列,提高CD99 CAR-T细胞的扩增能力。采用不同的MOI、培养基和培养容器,分别检测在不同条件下CAR-T细胞的转导效率、细胞存活率、增殖能力、特异性杀伤能力及干扰素-γ(interferon-γ,IFN-γ)释放水平等,筛选出最优的细胞制备条件。结果:通过shRNA敲低得到的KO-CD99 CAR-T细胞扩增水平显著高于CD99 CAR-T细胞[(16.40±0.40)vs(6.33±1.53),P<0.01]。转导MOI为0.25~1.0、培养基为OptiVitro时细胞的扩增效果最优。在透气瓶中培养的CAR-T细胞扩增倍数显著高于在培养袋中培养的细胞[MOI=0.25:(50.23±3.32)vs(13.02±4.82);MOI=0.50:(49.96±0.83)vs(18.25±2.88);MOI=1.00:(48.27±5.08)vs(13.16±6.26);P<0.01],且细胞分型更优、特异性杀伤更高。结论:通过shRNA技术得到的KO-CD99 CAR-T细胞可实现稳定扩增。从扩增条件优化结果看,MOI为0.25~1.00,培养基为OptiVitro,培养容器为透气瓶的条件下,KO-CD99 CAR-T细胞可获得更优的扩增能力、更多比例的记忆T细胞,为后续开展CD99 CAR-T细胞治疗ES的临床试验奠定了坚实基础。

基于颗粒酶B启动子的磁共振报告基因成像监测CAR-T细胞激活状态

目的利用颗粒酶B(granzyme B,GB)启动子控制铁蛋白(ferritin heavy chain,FTH1)报告基因表达,探讨通过磁共振成像(magnetic resonance imaging,MRI)监测嵌合抗原受体T细胞(chimeric antigen receptor T cells,CAR-T细胞)激活状态的可行性。方法通过Ficoll密度梯度离心法以及流式分选得到细胞毒性T淋巴细胞(cytotoxic T lymphocytes,CTLs)。将GB启动子和FTH1基因连接,连同二唾液酸神经节苷脂(disialoganglioside 2,GD2)嵌合抗原受体(chimeric antigen receptor,CAR)以慢病毒为载体转入CTLs,构建GD2-CAR-T/pGB-FTH1细胞,以GD2-CAR-T/pCMV-FTH1、GD2-CAR-T和T细胞为对照。CytoTox96@非放射性细胞毒性检测各组细胞与人神经母细胞瘤细胞(SK-N-SH)共培养后的杀伤效果,ELISA检测共孵育因子以及GB分泌量,Western blot、普鲁士蓝染色、细胞MRI检测共培养后FTH1基因的表达。结果成功获得CTLs并构建GD2-CAR-T/pGB-FTH1、GD2-CAR-T/pCMV-FTH1、GD2-CAR-T细胞,3组细胞对肿瘤细胞杀伤效果、共孵育因子以及GB分泌量均显著高于T细胞组,GB表达水平在与SK-N-SH细胞共培养后1 d最高,3 d和7 d依次降低。GD2-CAR-T/pGB-FTH1组FTH1相对表达量以及铁含量变化趋势与GB表达一致,MRI信号呈逐渐升高趋势。GD2-CAR-T/pCMV-FTH1组FTH1相对表达量、铁含量及MRI信号在各时间点均无显著差异。GD2-CAR-T和T细胞组无明显FTH1表达及聚铁效应。结论基于GB启动子的MRI报告基因成像可实时反映CAR-T细胞的GB表达水平和肿瘤杀伤作用,为CAR-T治疗提供了一种监测细胞激活状态的可视化手段。

CAR-T细胞治疗复发难治性弥漫大B细胞淋巴瘤1例报告并文献复习

1例复发难治性弥漫大B细胞淋巴瘤(R/RDLBCL)患者在接受多线治疗后,疾病仍进展,后采用嵌合抗原受体T细胞(CAR-T)治疗。该患者在输注CAR-T细胞后第1天出现3级细胞因子释放综合征,经治疗后缓解,目前处于部分缓解状态。证实CAR-T可被视为治疗R/RDLBCL的有效选择。

血液肿瘤微环境对CAR-T免疫疗法疗效及其不良反应的影响的研究进展

嵌合抗原受体T细胞(CAR-T)免疫疗法的应用开创了肿瘤治疗的新时代,特别是在多种难治性恶性肿瘤的治疗中取得空前成功,对于难治/复发血液系统恶性肿瘤如急性白血病、淋巴瘤、多发性骨髓瘤(MM)等更是效果显著。肿瘤微环境(TME)与CAR-T疗法的疗效及不良反应关系密切,不仅影响CAR-T细胞的活性,降低其抗肿瘤能力,甚至直接参与CAR-T疗法相关不良反应如细胞因子释放综合征(CRS)和免疫效应细胞相关神经毒性综合征(ICANS)的发生发展。因此,深入了解血液TME在CAR-T疗法治疗过程及不良反应中的作用,有助于拓展CAR-T疗法在血液系统恶性肿瘤中的应用。本文主要围绕血液TME对CAR-T疗法疗效和不良反应的影响进行综述,期望为临床优化难治/复发性血液系统恶性肿瘤的治疗方案提供循证依据。