Recent updates on allogeneic CAR-T cells in hematological malignancies.

CAR-T cell therapy is known as an effective therapy in patients with hematological malignancies. Since 2017, several autologous CAR-T cell (auto-CAR-T) drugs have been approved by the US Food and Drug Administration (FDA) for the treatment of some kinds of relapsed/refractory hematological malignancies. However, some patients fail to respond to these drugs due to high manufacturing time, batch-to-batch variation, poor quality and insufficient quantity of primary T cells, and their insufficient expansion and function. CAR-T cells prepared from allogeneic sources (allo-CAR-Ts) can be an alternative option to overcome these obstacles. Recently, several allo-CAR-Ts have entered into the early clinical trials. Despite their promising preclinical and clinical results, there are two main barriers, including graft-versus-host disease (GvHD) and allo-rejection that may decline the safety and efficacy of allo-CAR-Ts in the clinic. The successful development of these products depends on the starter cell source, the gene editing method, and the ability to escape immune rejection and prevent GvHD. Here, we summarize the gene editing technologies and the potential of various cell sources for developing allo-CAR-Ts and highlight their advantages for the treatment of hematological malignancies. We also describe preclinical and clinical data focusing on allo-CAR-T therapy in blood malignancies and discuss challenges and future perspectives of allo-CAR-Ts for therapeutic applications.

Gemcitabine, carboplatin, and Epstein Barr virus-specific autologous cytotoxic T lymphocytes for recurrent or metastatic nasopharyngeal carcinoma: VANCE, an international randomized Phase 3 trial.

BACKGROUND: Epstein-Barr virus-specific cytotoxic T lymphocyte (EBV-CTL) is an autologous adoptive T cell immunotherapy generated from the blood of individuals and manufactured without genetic modification. In a previous Phase 2 trial of locally recurrent or metastatic nasopharyngeal cancer (R/M NPC) patients, first-line gemcitabine and carboplatin (GC) and EBV-CTL combination demonstrated objective anti-tumor EBV-CTL activity and a favorable safety profile. The present study explored whether this combined first-line chemo-immunotherapy strategy would produce superior clinical efficacy and better quality of life compared to conventional chemotherapy treatment. PATIENTS AND METHODS: This multicenter, randomized, Phase 3 trial evaluated the efficacy and safety of GC followed by EBV-CTL vs. GC alone as first-line treatment for R/M NPC patients. Thirty clinical sites in Singapore, Malaysia, Taiwan, Thailand, and the United States (US) were included. Subjects were randomized to first-line GC (4 cycles) and EBV-CTL (6 cycles) or GC (6 cycles) in a 1:1 ratio. The primary outcome was overall survival (OS) and secondary outcomes included progression-free survival, objective response rate, clinical benefit rate, quality of life, and safety. CLINICALTRIALS: gov identifier: NCT02578641. RESULTS: 330 subjects with NPC were enrolled. Most subjects in both treatment arms received ≥4 cycles of chemotherapy and most subjects in the GC+EBV-CTL group received ≥2 infusions of EBV-CTL. The central Good Manufacturing Practices (GMP) facility produced sufficient EBV-CTL for 94% of GC+EBV-CTL subjects. The median OS was 25.0 months in the GC+EBV-CTL group and 24.9 months in the GC group (hazard ratio = 1.19; 95% CI: 0.91, 1.56; P = 0.194). Only 1 subject experienced a Grade 2 serious adverse event related to EBV-CTL. CONCLUSION: GC+EBV-CTL in subjects with R/M NPC demonstrated a favorable safety profile but no overall improvement in OS vs. chemotherapy. This is the largest adoptive T cell therapy trial reported in solid tumors to date.

The Pluripotent Path to Immunotherapy.

Adoptive cell therapy (ACT) enhances the patient's own immune cells' ability to identify and eliminate cancer cells. Several immune cell types are currently being applied in autologous ACT, including T cells, natural killer (NK) cells and macrophages. The cells' inherent anti-tumor capacity can be used, or they can be targeted towards tumor associated antigen through expression of a chimeric antigen receptor (CAR). Although CAR-based ACT has achieved great results in hematological malignancies, the accessibility of ACT is limited by the autologous nature of the therapy. Induced pluripotent stem cells (iPSCs) hold the potential to address this challenge, as they can provide an unlimited source for the in vitro generation of immune cells. Various immune subsets have been generated from iPSC for the application in ACT, including several T cell subsets (αßT cells, mucosal-associated invariant T cells, invariant NKT (iNKT) cells and γδT cells), as well as NK cells, macrophages and neutrophils. iPSC-derived αßT, NK and iNKT cells are currently being tested in Phase-I clinical trials. The ability to perform (multiplexed) gene editing at the iPSC level and subsequent differentiation into effector population not only expands the arsenal of ACT but allows for development of ACT utilizing cell types which cannot be efficiently obtained from peripheral blood or engineered and expanded in vitro.

Potential of gamma/delta T cells for solid tumor immunotherapy.

Gamma/delta T (γδ T)cells possess a unique mechanism for killing tumors, making them highly promising and distinguished among various cell therapies for tumor treatment. This review focuses on the major histocompatibility complex (MHC)-independent recognition of antigens and the interaction between γδ T cells and solid tumor cells. A comprehensive review is provided regarding the classification of human gamma-delta T cell subtypes, the characteristics and mechanisms underlying their functions, as well as their r545egulatory effects on tumor cells. The involvement of γδ T cells in tumorigenesis and migration was also investigated, encompassing potential therapeutic targets such as apoptosis-related molecules, the TNF receptor superfamily member 6(FAS)/FAS Ligand (FASL) pathways, butyrophilin 3A-butyrophilin 2A1 (BTN3A-BTN2A1) complexes, and interactions with CD4, CD8, and natural killer (NK) cells. Additionally, immune checkpoint inhibitors such as programmed cell death protein 1/Programmed cell death 1 ligand 1 (PD-1/PD-L1) have the potential to augment the cytotoxicity of γδ T cells. Moreover, a review on gamma-delta T cell therapy products and their corresponding clinical trials reveals that chimeric antigen receptor (CAR) gamma-delta T therapy holds promise as an approach with encouraging preclinical outcomes. However, practical issues pertaining to manufacturing and clinical aspects need resolution, and further research is required to investigate the long-term clinical side effects of CAR T cells. In conclusion, more comprehensive studies are necessary to establish standardized treatment protocols aimed at enhancing the quality of life and survival rates among tumor patients utilizing γδ T cell immunotherapy.

Application of magnetic nanoparticles in adoptive cell therapy of cancer; training, guiding and imaging cells.

Adoptive cell therapy (ACT) is on the horizon as a thrilling therapeutic plan for cancer. However, widespread application of ACT is often restricted by several challenges, including complexity of priming tumor-specific T cells and poor trafficking in solid tumors. The convergence of nanotechnology and cancer immunotherapy is coming of age and could address the limitations of ACT. Recent studies have provided evidence on the application of magnetic nanoparticles (MNPs) to generate smart immune cells and to bypass problems associated with conventional ACT. Herein, we review current progress in the application of MNPs to improve preparing, guiding and tracking immune cells in cancer ACT. Besides, we comment on the challenges ahead and strategies to optimize MNPs for clinical settings.

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Immunotherapy for colorectal cancer.

Colorectal cancer is the third most common cancer and the second most lethal cancer in the world. The main cause of the disease is due to dietary and behavioral factors. The treatment of this complex disease is mainly based on traditional treatments, including surgery, radiotherapy, and chemotherapy. Due to its high prevalence and high morbidity, more effective treatments with fewer side effects are urgently needed. In recent years, immunotherapy has become a potential therapeutic alternative and one of the fastest-developing treatments. Immunotherapy inhibits tumor growth by activating or enhancing the immune system to recognize and attack cancer cells. This review presents the latest immunotherapies for immune checkpoint inhibitors, cell therapy, tumor-infiltrating lymphocytes, and oncolytic viruses. Some of these have shown promising results in clinical trials and are used in clinical treatment.

Advances in Virus-Specific T Cell Therapy for Polyomavirus Infections: A Comprehensive Review.

Polyomaviruses are a group of small, non-enveloped, double-stranded DNA viruses that can infect various hosts, including humans. BKPyV is known to cause conditions such as human polyomavirus-associated nephropathy (HPyVAN), human polyomavirus-associated hemorrhagic cystitis (HPyVHC), and human polyomavirus-associated urothelial cancer (HPyVUC). JCPyV, on the other hand, is responsible for progressive multifocal leukoencephalopathy (PML), a severe demyelinating disease of the central nervous system. PML primarily affects immunocompromised individuals, including those with HIV, recipients of certain immunosuppressive therapies, and transplant patients. The treatment options for HPyV infections have been limited, but recent developments in virus-specific T cell (VST) therapy have shown promise. While VST therapy has shown promise in treating both BKPyV and JCPyV infections, several challenges remain. These include the time-consuming and costly preparation of VSTs, the need for sophisticated production facilities, and uncertainties regarding the optimal cell type and infusion frequency. To the best of our knowledge, 85 patients with hemorrhagic cystitis, 27 patients with BKPyV viremia, 2 patients with BKPyV nephritis, 14 patients with hemorrhagic cystitis and BKPyV viremia, 32 patients with PML were treated with VST in the literature. The overall response was 82, 33, 35, and 10 complete, partial, non-response, and no-outcome-reported (NA), respectively. In conclusion, this review underscores the importance of VST therapy as a promising treatment approach for polyomavirus infections, emphasizing the need for continued research and clinical trials to refine and expand this innovative immunotherapeutic strategy.

New strategies in soft tissue sarcoma treatment.

Soft tissue sarcomas (STS) have long been a formidable challenge in oncology, partly because of their rarity and diversity, which complicates large-scale studies and slows the advent of new treatments. Traditionally anchored by anthracycline-based chemotherapy, the landscape of STS treatment hasn't shifted dramatically in the past twenty years. However, recent strides in research are starting to paint a more hopeful picture. Leveraging advanced molecular profiling, researchers are now tailoring treatments to the unique genetic makeup of tumors, with targeted therapies showing promise. Innovations such as NTRK inhibitors for NTRK-rearranged sarcomas and gamma-secretase inhibitors for desmoid tumors are changing clinical practices. The rise of immunotherapy, including novel agents like LAG-3 inhibitors and bifunctional proteins that target both TGF-ß and PD-L1, offers new avenues for treatment, particularly when combined with traditional therapies like chemotherapy. Meanwhile, the approval of epigenetic treatments for specific sarcoma subtypes heralds a new wave of strategy based on histological specificity, which could lead to more personalized and effective care. While challenges remain, the field of STS treatment is evolving, driven by a deeper understanding of the disease's biological underpinnings and a commitment to innovative research approaches.

Targeting the membrane-proximal C2-set domain of CD33 for improved CAR T cell therapy.

Current CD33-targeted immunotherapies typically recognize the membrane-distal V-set domain of CD33. Here, we show that decreasing the distance between T cell and leukemia cell membrane increases the efficacy of CD33 chimeric antigen receptor (CAR) T cells. We therefore generated and optimized second-generation CAR constructs containing single-chain variable fragments from antibodies raised against the membrane-proximal C2-set domain, which bind CD33 regardless of whether the V-set domain is present (CD33PAN antibodies). CD33PAN CAR T cells resulted in efficient tumor clearance and improved survival of immunodeficient mice bearing human AML cell xenografts and, in an AML model with limited CD33 expression, forced escape of CD33neg leukemia. Compared to CD33V-set CAR T cells, CD33PAN CAR T cells showed greater in vitro and in vivo efficacy against several human AML cell lines with differing levels of CD33 without increased expression of exhaustion markers. CD33PAN moieties were detected at a higher frequency on human leukemic stem cells, and CD33PAN CAR T cells had greater in vitro efficacy against primary human AML cells. Together, our studies demonstrate improved efficacy with CAR T cells binding CD33 close to the cell membrane, providing the rationale to investigate CD33PAN CAR T cells further toward possible clinical application.

Comparative assessment of autologous and allogeneic iNKT cell transfer in iNKT cell-based immunotherapy.

Invariant natural killer T (iNKT) cells are a small subset of T lymphocytes that release large amounts of cytokines such as IFN-γ and exhibit cytotoxic activity upon activation, inducing strong anti-tumor effects. Harnessing the anti-tumor properties of iNKT cells, iNKT cell-based immunotherapy has been developed to treat cancer patients. In one of the iNKT cell-based immunotherapies, two approaches are utilized, namely, active immunotherapy or adoptive immunotherapy, the latter involving the ex vivo expansion and subsequent administration of iNKT cells. There are two sources of iNKT cells for adoptive transfer, autologous and allogeneic, each with its own advantages and disadvantages. Here, we assess clinical trials conducted over the last decade that have utilized iNKT cell adoptive transfer as iNKT cell-based immunotherapy, categorizing them into two groups based on the use of autologous iNKT cells or allogeneic iNKT cells.

Engineered T cells for Colorectal Cancer.

Colorectal cancer (CRC) is a major contributor to global cancer incidence and mortality. Conventional treatments have limitations; hence, innovative approaches are imperative. Recent advancements in cancer research have led to the development of personalized targeted therapies and immunotherapies. Immunotherapy, in particular, T cell-based therapies, exhibited to be promising in enhancing cancer treatment outcomes. This review focuses on the landscape of engineered T cells as a potential option for the treatment of CRC. It highlights the approaches, challenges and current advancements in this field. As the understanding of molecular mechanisms increases, engineered T cells hold great potential in revolutionizing cancer treatment. To fully explore their safety efficacy in improving patient outcomes, further research and clinical trials are necessary.

Colorectal cancer (CRC) is a significant cause of cancer cases and cancer-related deaths globally. Current treatments for CRC have limitations; hence, there is a need for new and innovative approaches. Recent progress in cancer research has led to the development of personalized targeted therapies and immunotherapies, that is, treatments that use the body's immune system to fight cancer. T cell-based therapy is a type of immunotherapy that has shown promising outcomes in cancer treatment. This therapy involves modifying a type of immune cell called T cells to specifically target cancer cells. In this review, the focus is on the landscape of engineered T cells as a potential option for the treatment of CRC, as well as their challenges and current advancements. Generally, additional research and clinical trials are needed to fully explore its safety and efficacy in improving patient outcomes.

Looking ahead to targeting macrophages by CAR T- or NK-cells in blood cancers.

INTRODUCTION: The bone marrow microenvironment (BME) is critical for healthy hematopoiesis and is often disrupted in hematologic malignancies. Tumor-associated macrophages (TAMs) are a major cell type in the tumor microenvironment (TME) and play a significant role in tumor growth and progression. Targeting TAMs and modulating their polarization is a promising strategy for cancer therapy. AREAS COVERED: In this review, we discuss the importance of TME and different multiple possible targets to modulate immunosuppressive TAMs such as: CD123, Sphingosine 1-Phosphate Receptors, CD19/CD1d, CCR4/CCL22, CSF1R (CD115), CD24, CD40, B7 family proteins, MARCO, CD47, CD163, CD204, CD206 and folate receptors. EXPERT OPINION: Innovative approaches to combat the immunosuppressive milieu of the tumor microenvironment in hematologic malignancies are of high clinical significance and may lead to increased survival, improved quality of life, and decreased toxicity of cancer therapies. Standard procedures will likely involve a combination of CAR T/NK-cell therapies with other treatments, leading to more comprehensive cancer care.

PDT and antitumor immunity: the beginnings of the story.

This mini-review reports a brief description of the first experiments conducted by Canti's group on the role of photodynamic therapy in generating immunity against cancer. It highlights for the first time the effective role of PDT in the induction of anti-tumor T lymphocytes and shows that this effect is tumor-specific. It has also been reported how this adoptive immunity can improve the efficacy of chemotherapy. These studies have helped to open an important new field of scientific research on the role of PDT-generated immunity and to stimulate today's important new pre-clinical approaches.

Recent Advances in Immunotherapy for Breast Cancer: A Review.

Breast cancer is one of the most common malignant tumors in women in the world, and its incidence is increasing year by year, which seriously threatens the physical and mental health of women. Triple negative breast cancer (TNBC) is a special molecular type of breast cancer in which estrogen receptor, progesterone receptor and human epidermal growth factor receptor-2 are negative. Compared with other molecular types of breast cancer, triple-negative breast cancer (TNBC) has high aggressiveness and metastasis, high recurrence rate, lack of effective therapeutic targets, and usually poor clinical treatment effect. Chemotherapy was the main therapeutic means used in the past. With the advent of the immune era, immunotherapy has made a lot of progress in the treatment of triple-negative breast cancer (TNBC), bringing new therapeutic hope for the treatment of triple-negative breast cancer. This review combines the results of cutting-edge medical research, mainly summarizes the research progress of immunotherapy, and summarizes the main treatment methods of triple-negative breast cancer (TNBC) immunotherapy, including immune checkpoint inhibitors, tumor vaccines, adoptive immunotherapy and the application of traditional Chinese and western medicine. It provides a new idea for the treatment of triple negative breast cancer (TNBC).

Macrophages regulate plaque progression in diabetic Apoe-/- mice dependent on Pi4p/Nlrp3 signaling pathway.

BACKGROUND AND AIMS: Atherosclerotic cardiovascular disease complicated by diabetes mellitus (DM) is the leading cause of death in diabetic patients, and it is strongly associated with macrophages and inflammasomes. It has been found that activation of NOD-like receptor thermal protein domain associated protein 3 (NLRP3) inflammasome is closely associated with phosphatidylinositol 4-phosphate (PI4P) on the trans-Golgi. However, how PI4P and NLRP3 regulate macrophage function and its role in diabetic atherosclerotic plaques is unclear. METHODS: The expression of Pi4p and Nlrp3-inflammasome-related proteins in atherosclerosis in apolipoprotein E-deficient (Apoe-/-) and Apoe-/- DM mice was investigated. Then, Pi4p levels were affected by shRNA-Pi4kb or cDNA-Sac1 plasmid to investigate the effects of changes in Pi4p-related metabolic enzymes on macrophage function. Finally, genetically modified macrophages were injected into diabetic Apoe-/- mice to explore the effects on atherosclerosis. RESULTS: DM promoted plaque progression in atherosclerotic mice and increased expression of Pi4p and Nlrp3 in plaques. In addition, impaired macrophage function induced by high glucose was reversed by transfected shRNA-Pi4kb or cDNA-Sac1 plasmid. Furthermore, decreased levels of Pi4p reduced plaque area in diabetic Apoe-/- mice. CONCLUSIONS: Our data suggests that Pi4p/Nlrp3 in macrophages play an important role in the exacerbation of atherosclerosis in diabetic mice. Pi4p-related metabolizing enzymes (PI4KB and SAC1) may be a potential therapeutic strategy for diabetic atherosclerosis, and macrophage therapy is also a potential treatment.

Alginate-based artificial antigen presenting cells expand functional CD8+ T cells with memory characteristics for adoptive cell therapy.

The development of artificial Antigen Presenting Cells (aAPCs) has led to improvements in adoptive T cell therapy (ACT), an immunotherapy, for cancer treatment. aAPCs help to streamline the consistent production and expansion of T cells, thus reducing the time and costs associated with ACT. However, several issues still exist with ACT, such as insufficient T cell potency, which diminishes the translational potential for ACT. While aAPCs have been used primarily to increase production efficiency of T cells for ACT, the intrinsic properties of a biomaterial-based aAPC may affect T cell phenotype and function. In CD8+ T cells, reactive oxygen species (ROS) and oxidative stress accumulation can activate Forkhead box protein O1 (FOXO1) to transcribe antioxidants which reduce ROS and improve memory formation. Alginate, a biocompatible and antioxidant rich biomaterial, is promising for incorporation into an aAPC formulation to modulate T cell phenotype. To investigate its utility, a novel alginate-based aAPC platform was developed that preferentially expanded CD8+ T cells with memory related features. Alginate-based aAPCs allowed for greater control of CD8+ T cell qualities, including, significantly improved in vivo persistence and augmented in vivo anti-tumor T cell responses.

Investigating the prognostic impact of NY-ESO-1 expression and HLA subtypes in metastatic synovial sarcoma.

BACKGROUND: To better understand the importance of the New York esophageal squamous cell carcinoma 1 (NY-ESO-1) and human leukocyte antigen (HLA) subtypes in treatment decision-making, further investigation of their prevalence and prognostic impact among patients with metastatic synovial sarcoma (mSS) is needed. PATIENTS AND METHODS: This was a retrospective clinico-biological cohort study of adults with mSS. Patient data were collected from the French Sarcoma Group NetSARC database and supplemented by electronic medical records. Primary tumor samples were collected and analyzed for NY-ESO-1 expression by immunohistochemistry (IHC) and HLA-A∗02 status by RNA sequencing (RNA-seq). The primary cohort included patients with available primary tumor samples; the impact of a larger sample size was explored by including patients who had either a primary or metastatic sample (termed the exploratory cohort). P values are provided for descriptive purposes. RESULTS: In 92 patients with primary tumor samples, ∼25% (n = 23) were positive for NY-ESO-1 and HLA-A∗02 expression (dual positive). Among 106 patients with IHC data, 61% (n = 65) were NY-ESO-1 positive, and among 94 patients with RNA-seq data, 45% (n = 42) were HLA-A∗02 positive. The median overall survival (OS) for positive versus negative NY-ESO-1 status was 35.3 and 21.7 months, respectively (unadjusted P = 0.0428). We observed no difference in median OS for HLA-A∗02-positive versus -negative and dual-positive patients versus others (both unadjusted P > 0.05). Multivariate analyses of OS showed no prognostic impact for NY-ESO-1 among primary tumor samples and in the exploratory cohort. However, in the latter we observed an association between NY-ESO-1 expression and OS in the first-line (P = 0.0041) but not in the second-line setting. CONCLUSIONS: The primary tumor cohort showed no association between NY-ESO-1 expression and OS (including stratification by HLA-A∗02 subtype and treatment line) when adjusting for important prognostic factors, possibly due to small sample sizes.

Cytokine release syndrome after chimeric antigen receptor T cell therapy in patients with diffuse large B-cell lymphoma: a systematic review.

INTRODUCTION: Chimeric antigen receptor T (CAR-T) cell therapy is an innovative technology that has shown promising results in clinical trials. Treatment is based on modifying the patient's own T cells to express artificial surface receptors to specifically recognize and attack the tumor cells. OBJECTIVE: To synthesize available evidence on the incidence and management strategies of cytokine release syndrome in patients with diffuse large B-cell lymphoma who received CAR-T cell therapy. METHODS: This is a systematic literature review. The search was conducted in the PubMed, Scopus, and Web of science databases. This review followed the Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) guidelines. The systematic review protocol is registered in the International Prospective Register of Systematic Reviews (PROSPERO) database under number CRD42022359258. RESULTS: Nineteen studies were included with a total of 1193 patients who received CAR-T cell therapy. Of these patients, 804 (67%) developed some degree of cytokine release syndrome. The frequencies of Grade 3 and 4 cytokine release syndrome were 10% and 3%, respectively. The regimen most used in the management of the syndrome included tocilizumab and/or glucocorticoids. CONCLUSION: The results obtained in this review demonstrate high rates of cytokine release syndrome in patients with diffuse large B-cell lymphoma treated with CAR-T cell therapy, however these events are manageable, supporting the conclusion that this therapy is safe in these patients.

Corrigendum: Ex vivo modulation of intact tumor fragments with anti-PD-1 and anti-CTLA-4 influences the expansion and specificity of tumor-infiltrating lymphocytes.

[This corrects the article DOI: 10.3389/fimmu.2023.1180997.].

Immunotherapy in melanoma: advances, pitfalls, and future perspectives.

Cutaneous melanoma is the deadliest and most aggressive form of skin cancer owing to its high capacity for metastasis. Over the past few decades, the management of this type of malignancy has undergone a significant revolution with the advent of both targeted therapies and immunotherapy, which have greatly improved patient quality of life and survival. Nevertheless, the response rates are still unsatisfactory for the presence of side effects and development of resistance mechanisms. In this context, tumor microenvironment has emerged as a factor affecting the responsiveness and efficacy of immunotherapy, and the study of its interplay with the immune system has offered new promising clinical strategies. This review provides a brief overview of the currently available immunotherapeutic strategies for melanoma treatment by analyzing both the positive aspects and those that require further improvement. Indeed, a better understanding of the mechanisms involved in the immune evasion of melanoma cells, with particular attention on the role of the tumor microenvironment, could provide the basis for improving current therapies and identifying new predictive biomarkers.