Tumor recurrence is one of the major life-threatening complications after liver transplantation for liver cancer.In addition to the common mechanisms underlying tumor recurrence,another unavoidable problem is that the...Tumor recurrence is one of the major life-threatening complications after liver transplantation for liver cancer.In addition to the common mechanisms underlying tumor recurrence,another unavoidable problem is that the immunosuppressive therapeutic regimen after transplantation could promote tumor recurrence and metastasis.Transplant oncology is an emerging field that addresses oncological challenges in transplantation.In this context,a comprehensive therapeutic management approach is required to balance the anti-tumor treatment and immunosuppressive status of recipients.Double-negative T cells(DNTs)are a cluster of heterogeneous cells mainly consisting of two subsets stratified by T cell receptor(TCR)type.Among them,TCRαβ^(+)DNTs are considered to induce immune suppression in immune-mediated diseases,while TCRγδ^(+)DNTs are widely recognized as tumor killers.As a composite cell therapy,healthy donor-derived DNTs can be propagated to therapeutic numbers in vitro and applied for the treatment of several malignancies without impairing normal tissues or being rejected by the host.In this work,we summarized the biological characteristics and functions of DNTs in oncology,immunology,and transplantation.Based on the multiple roles of DNTs,we propose that a new balance could be achieved in liver transplant oncology using them as an off-the-shelf adoptive cell therapy(ACT).展开更多
Adoptive cell therapy(ACT)has emerged with remarkable efficacies for tumor immunotherapy.Chimeric antigen receptor(CAR)T cell therapy,as one of most promising ACTs,has achieved prominent effects in treating malignant ...Adoptive cell therapy(ACT)has emerged with remarkable efficacies for tumor immunotherapy.Chimeric antigen receptor(CAR)T cell therapy,as one of most promising ACTs,has achieved prominent effects in treating malignant hematological tumors.However,the insufficient killing activity and limited persistence of T cells in the immunosuppressive tumor microenvironment limit the further application of ACTs for cancer patients.Many studies have focused on improving cytotoxicity and persistence of T cells to achieve improved therapeutic effects.In this study,we explored the potential function in ACT of ginsenoside Rg1,the main pharmacologically active component of ginseng.We introduced Rg1 during the in vitro activation and expansion phase of T cells,and found that Rg1 treatment upregulated two T cell activation markers,CD69 and CD25,while promoting T cell differentiation towards a mature state.Transcriptome sequencing revealed that Rg1 influenced T cell metabolic reprogramming by strengthening mitochondrial biosynthesis.When co-cultured with tumor cells,Rg1-treated T cells showed stronger cytotoxicity than untreated cells.Moreover,adding Rg1 to the culture endowed CAR-T cells with enhanced anti-tumor efficacy.This study suggests that ginsenoside Rg1 provides a potential approach for improving the anti-tumor efficacy of ACT by enhancing T cell effector functions.展开更多
Liver transplantation(LT)is a highly curative therapy for patients with hepatocellular carcinoma(HCC).However,due to the shortage of donor livers and rapid progression of HCC,a majority of patients are dropped out fro...Liver transplantation(LT)is a highly curative therapy for patients with hepatocellular carcinoma(HCC).However,due to the shortage of donor livers and rapid progression of HCC,a majority of patients are dropped out from the waitlist.Recently,immunotherapy has shown great promise in the treatment of advanced HCC.However,the use of immunotherapy is limited in LT mainly due to the potentially increasing risk of graft rejection.One of the main challenges for researchers is the protection of donor graft from an immunotherapy-boosted immune response mounted by the host.Besides,the safety,availability,and costs of immunotherapy are other challenges that need to be addressed.Here,we reviewed the literature involving patients who received immunotherapy prior to transplant to avoid waitlist dropouts and following transplantation to prevent the progression of tumor recurrence and metastasis.Statistically,the incidence of rejection was 25.0%pre-transplant and 18.5%post-transplant.Based on the review of these clinical studies,we can conclude that conducting clinical trials on the safety and efficacy of currently available immunotherapy drugs and identifying novel immunotherapy targets through extensive research may be promising for patients who do not meet the selection criteria for LT and who experience post-transplant recurrence.To date,the clinical experience on the use of immunotherapy before or after LT comes from individual case studies.Although some of the reported results are promising,they are not sufficient to support the standardized use of immunotherapy in clinical practice.展开更多
Adoptive cell therapy(ACT)is an emerging powerful cancer immunotherapy,which includes a complex process of genetic modification,stimulation and expansion.During these in vitro or ex vivo manipulation,sensitive cells a...Adoptive cell therapy(ACT)is an emerging powerful cancer immunotherapy,which includes a complex process of genetic modification,stimulation and expansion.During these in vitro or ex vivo manipulation,sensitive cells are inescapability subjected to harmful external stimuli.Although a variety of cytoprotection strategies have been developed,their application on ACT remains challenging.Herein,a DNA network is constructed on cell surface by rolling circle amplification(RCA),and T cell-targeted trivalent tetrahedral DNA nanostructure is used as a rigid scaffold to achieve high-efficient and selective coating for T cells.The cytoprotective DNA network on T-cell surface makes them aggregate over time to form cell clusters,which exhibit more resistance to external stimuli and enhanced activities in human peripheral blood mononuclear cells and liver cancer organoid killing model.Overall,this work provides a novel strategy for in vitro T cell-selective protection,which has a great potential for application in ACT.展开更多
Hepatocellular carcinoma,the most common primary liver cancer,in an immunogenic tumor with a poor prognosis because these tumors are diagnosed at late stages.Although,surgical resection,ablation,liver transplant,and l...Hepatocellular carcinoma,the most common primary liver cancer,in an immunogenic tumor with a poor prognosis because these tumors are diagnosed at late stages.Although,surgical resection,ablation,liver transplant,and locoregional therapies are available for early stages;however,there are yet no effective treatment for advanced and recurrent tumors.Immune checkpoint inhibitor therapy and adoptive cell transfer therapy has gained the popularity with some positive results because these therapies overcome anergy and systemic immune suppression.However,still there is a lack of an effective treatment and thus there is an unmet need of a novel treatment.At present,the focus of the research is on oncolytic viral therapy and combination therapy where therapies including radiotherapy,immune checkpoint therapy,adoptive cell transfer therapy,and vaccines are combined to get an additive or synergistic effect enhancing the immune response of the liver with a cytotoxic effect on tumor cells.This review discusses the recent key development,the basis of drug resistance,immune evasion,immune tolerance,the available therapies based on stage of the tumor,and the ongoing clinical trials on immune checkpoint inhibitor therapy,adoptive cell transfer therapy,oncolytic viral vaccine therapy,and combination therapy.展开更多
Neoantigen-targeted immunotherapy is a rapidly advancing field that holds great promise for treating cancer.The recognition of antigens by immune cells is a crucial step in tumor-specific killing,and neoantigens gener...Neoantigen-targeted immunotherapy is a rapidly advancing field that holds great promise for treating cancer.The recognition of antigens by immune cells is a crucial step in tumor-specific killing,and neoantigens generated by mutations in cancer cells possess high immunogenicity and are selectively expressed in tumor cells,making them an attractive therapeutic target.Currently,neoantigens find utility in various domains,primarily in the realm of neoantigen vaccines such as DC vaccines,nucleic acid vaccines,and synthetic long peptide vaccines.Additionally,they hold promise in adoptive cell therapy,encompassing tumor-infiltrating cells,T cell receptors,and chimeric antigen receptors which are expressed by genetically modified T cells.In this review,we summarized recent progress in the clinical use of tumor vaccines and adoptive cell therapy targeting neoantigens,discussed the potential of neoantigen burden as an immune checkpoint in clinical settings.With the aid of state-of-the-art sequencing and bioinformatics technologies,together with significant advancements in artificial intelligence,we anticipated that neoantigens will be fully exploited for personalized tumor immunotherapy,from screening to clinical application.展开更多
Background:Since RNA sequencing has shown that induced pluripotent stem cells(iPSCs)share a common antigen profile with tumor cells,cancer vaccines that focus on iPSCs have made promising progress in recent years.Prev...Background:Since RNA sequencing has shown that induced pluripotent stem cells(iPSCs)share a common antigen profile with tumor cells,cancer vaccines that focus on iPSCs have made promising progress in recent years.Previously,we showed that iPSCs derived from leukemic cells of patients with primary T cell acute lymphoblastic leukemia(T-ALL)have a gene expression profile similar to that of T-ALL cell lines.Methods:Mice with T-ALL were treated with dendritic and T(DC-T)cells loaded with intact and complete antigens from T-ALL-derived iPSCs(T-ALL-iPSCs).We evaluated the safety and antitumor efficiency of autologous tumor-derived iPSC antigens by flow cytometry,cytokine release assay,acute toxicity experiments,long-term toxicity experiments,and other methods.Results:Our results indicate that complete tumor antigens from T-ALL-iPSCs could inhibit the growth of inoculated tumors in immunocompromised mice without causing acute and long-term toxicity.Conclusion:T-ALL-iPSC-based treatment is safe and can be used as a potential strategy for leukemia immunotherapy.展开更多
Gastric cancer is the second most common of cancerrelated deaths worldwide.In the majority of cases gastric cancer is advanced at diagnosis and although medical and surgical treatments have improved,survival rates rem...Gastric cancer is the second most common of cancerrelated deaths worldwide.In the majority of cases gastric cancer is advanced at diagnosis and although medical and surgical treatments have improved,survival rates remain poor.Cancer immunotherapy has emerged as a powerful and promising clinical approach for treatment of cancer and has shown major success in breast cancer,prostate cancer and melanoma.Here,we provide an overview of concepts of modern cancer immunotherapy including the theory,current approaches,remaining hurdles to be overcome,and the future prospect of cancer immunotherapy in the treatment of gastric cancer.Adaptive cell therapies,cancer vaccines,gene therapies,monoclonal antibody therapies have all been used with some initial successes in gastric cancer.However,to date the results in gastric cancer have been disappointing as current approaches often do not stimulate immunity efficiently allowing tumors continue to grow despite the presence of a measurable immune response.Here,we discuss the identification of targets for immunotherapy and the role of biomarkers in prospectively identifying appropriate subjects or immunotherapy.We also discuss the molecular mechanisms by which tumor cells escape host immunosurveillance and produce an immunosuppressive tumor microenvironment.We show how advances have provided tools for overcoming the mechanisms of immunosuppression including the use of monoclonal antibodies to block negative regulators normally expressed on the surface of T cells which limit activation and proliferation of cytotoxic T cells.Immunotherapy has greatly improved and is becoming an important factor in such fields as medical care and welfare for human being.Progress has been rapid ensuring that the future of immunotherapy for gastric cancer is bright.展开更多
Human colorectal cancer(CRC) is the third most commonly diagnosed malignancies and the prognosis for patients with recurrent or metastatic disease is extremely poor. Although new chemotherapeutic regimen improves surv...Human colorectal cancer(CRC) is the third most commonly diagnosed malignancies and the prognosis for patients with recurrent or metastatic disease is extremely poor. Although new chemotherapeutic regimen improves survival rates, therapy with better efficacy and less adverse effects is drastically needed. Immunotherapy has been investigated in human CRC for decades with limited success. However, recent developments of immunotherapy, particularly immune checkpoint inhibitor therapy, have achieved promising clinical benefits in many types of cancer and revived the hope for utilizing such therapy in human CRC. In this review, we will discuss important immunological landscape within the CRC microenvironment and introduce immunoscore system to better describe immunophenotyping in CRC. We will also discuss different immunotherapeutic approaches currently utilized in different phases of clinical trials. Some of those completed or ongoing trials are summarized. Finally, we provide a brief prospective on the future human CRC immunotherapy.展开更多
Hepatocellular carcinoma(HCC)is a leading cause of cancer-related deaths worldwide.Its high recurrence rate and lack of effective control drugs result in a 5-year survival rate of only about 10%.HCC is a tumor regulat...Hepatocellular carcinoma(HCC)is a leading cause of cancer-related deaths worldwide.Its high recurrence rate and lack of effective control drugs result in a 5-year survival rate of only about 10%.HCC is a tumor regulated by the immune system.Significant breakthroughs have occurred in treating solid tumors with immunotherapy in recent years.Various immunotherapies,such as immune checkpoint inhibitors(ICIs),including combination therapies,have demonstrated promising therapeutic effects in both clinical applications and research.Other immunotherapies,such as adoptive cell therapies and oncolytic viruses,are also emerging,offering hope for addressing long-term survival issues in HCC.This article reviews current commonly used immunotherapy strategies and the latest research findings for reference.展开更多
Penile cancer is a rare genitourinary malignancy with a greater incidence in parts of Asia,South America,and Africa.Outcomes are very poor in patients with advanced disease and in those who do not respond to frstine m...Penile cancer is a rare genitourinary malignancy with a greater incidence in parts of Asia,South America,and Africa.Outcomes are very poor in patients with advanced disease and in those who do not respond to frstine mutimodal therapy.Among systemic therapy options,platinum-based chemotherapy is used in the frst line;however,approximately half of patients do not benefit.Response rates to systeric therapy as subsequent line treatment are historically dismal.There is also a paucity of prognostic and predictive tools within the context of penile cancer.As such,there remains an urgent need to expand systemic treatment options for patients with advanced penile cancer.The purpose of this review is to summarize the existing evidence for standard-of-care lines of systemic treatment,examine the potential of novel lines of systemic therapy,and provide an update as to the status of these new therapies within the context of penile cancer.展开更多
Adoptive cell therapy and Immune Checkpoint Blockade Inhibitors have recently revolutionized the field of oncology.However,these types of immunotherapeutic approaches have limited success in treating solid tumors.In p...Adoptive cell therapy and Immune Checkpoint Blockade Inhibitors have recently revolutionized the field of oncology.However,these types of immunotherapeutic approaches have limited success in treating solid tumors.In particular,chimeric antigen receptor(CAR)-T cells efficacy is hampered by immunosuppressive signals in the tumor microenvironment(TME)and by a limited infiltration of re-infused T cells to the tumor site.The field of nanobiotechnology applied to oncology is also rapidly expanding.Nanoparticles-based delivery systems can be employed to modulate the activity of immune cells present in the TME enhancing the efficacy of CAR-T cells.Interestingly,nano-backpacks can be attached to CAR-T cells prior to re-infusion to support their homing to the tumor site and to slowly release immunopotentiators directly in the TME.Furthermore,nanovaccines can also be employed to support the in vivo expansion of CAR-T cells with consequent enhancement of their therapeutic potential.In this viewpoint,recent advancement in the field of nanobiotechnology to support CAR-T cell therapy will be discussed.The development of novel therapeutic CAR-T cells protocols together with nanotherapies is warranted in order to take full advantage of the high therapeutic potential of CAR-T cell therapy.展开更多
B cell malignancies pose challenges due to therapeutic resistance and repeated relapse.Advances in adoptive cellular therapies including chimeric antigen receptor(CAR)-T cells have the potential to transform the treat...B cell malignancies pose challenges due to therapeutic resistance and repeated relapse.Advances in adoptive cellular therapies including chimeric antigen receptor(CAR)-T cells have the potential to transform the treat-ment landscape in hematological and solid tumor cancers.Improvements in constructs of CAR-T have improved specificity in targeting malignant cells.Multiple clinical trials have demonstrated the efficacy of CAR-T and other cellular treatments.In spite of advances in cellular therapies,hurdles in managing toxicities and lingering resis-tance remain.This review aims to summarize current innovations in adoptive cellular therapies and introduces future paths of discovery that will enhance these therapies in the era of precision oncology.展开更多
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 enco...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.展开更多
With the significant advances in cancer genomics using next-generation sequencing technologies,genomic and molecular profilingbased precision medicine is used as a part of routine clinical test for guiding and selecti...With the significant advances in cancer genomics using next-generation sequencing technologies,genomic and molecular profilingbased precision medicine is used as a part of routine clinical test for guiding and selecting the most appropriate treatments for individual cancer patients.Although many molecular-targeted therapies for a number of actionable genomic alterations have been developed,the clinical application of such information is still limited to a small proportion of cancer patients.In this review,we summarize the current status of personalized drug selection based on genomic and molecular profiling and highlight the challenges how we can further utilize the individual genomic information.Cancer immunotherapies,including immune checkpoint inhibitors,would be one of the potential approaches to apply the results of genomic sequencing most effectively.Highly cancer-specific antigens derived from somatic mutations,the so-called neoantigens,occurring in individual cancers have been in focus recently.Cancer immunotherapies,which target neoantigens,could lead to a precise treatment for cancer patients,despite the challenge in accurately predicting neoantigens that can induce cytotoxic T cells in individual patients.Precise prediction of neoantigens should accelerate the development of personalized immunotherapy including cancer vaccines and T-cell receptor-engineered T-cell therapy for a broader range of cancer patients.展开更多
Hepatocellular carcinoma(HCC)is the most common primary malignancy of the liver and is unfortunately associated with an overall poor prognosis and high mortality.Early and intermediate stages of HCC allow for treatmen...Hepatocellular carcinoma(HCC)is the most common primary malignancy of the liver and is unfortunately associated with an overall poor prognosis and high mortality.Early and intermediate stages of HCC allow for treatment with surgical resection,ablation and even liver transplantation,however disease progression warrants conventional systemic therapy.For years treatment options were limited to molecular-targeting medications,of which sorafenib remains the standard of care.The recent development and success of immune checkpoint inhibitors has proven to be a breakthrough in the treatment of HCC,but there is an urgent need for the development of further novel therapeutic treatments that prolong overall survival and minimize recurrence.Current investigation is focused on adoptive cell therapy including chimeric antigen receptor-T cells(CAR-T cells),T cell receptor(TCR)engineered T cells,dendritic cells,natural killer cells,and tumor infiltrating lymphocyte cells,which have shown remarkable success in the treatment of hematological and solid tumor malignancies.In this review we briefly introduce readers to the currently approved systemic treatment options and present clinical and experimental evidence of HCC immunotherapeutic treatments that will hopefully one day allow for revolutionary change in the treatment modalities used for unresectable HCC.We also provide an up-to-date compilation of ongoing clinical trials investigating CAR-T cells,TCR engineered T cells,cancer vaccines and oncolytic viruses,while discussing strategies that can help overcome commonly faced challenges when utilizing cellular based treatments.展开更多
Cell-based immunotherapy for lymphoid malignancies has gained increasing attention as patients develop resistance to conventional treatments.cd T cells,which have major histocompatibility complex(MHC)-unrestricted lyt...Cell-based immunotherapy for lymphoid malignancies has gained increasing attention as patients develop resistance to conventional treatments.cd T cells,which have major histocompatibility complex(MHC)-unrestricted lytic activity,have become a promising candidate population for adoptive cell transfer therapy.We previously established a stable condition for expanding cd T cells by using anti-cd T-cell receptor(TCR)antibody.In this study,we found that adoptive transfer of the expanded cd T cells to Daudi lymphoma-bearing nude mice significantly prolonged the survival time of the mice and improved their living status.We further investigated the characteristics of these antibody-expanded cd T cells compared to the more commonly used phosphoantigen-expanded cd T cells and evaluated the feasibility of employing them in the treatment of lymphoid malignancies.Slow but sustained proliferation of human peripheral blood cd T cells was observed upon stimulation with anti-cd TCR antibody.Compared to phosphoantigen-stimulated cd T cells,the antibody-expanded cells manifested similar functional phenotypes and cytotoxic activity towards lymphoma cell lines.It is noteworthy that the anti-cd TCR antibody could expand both the Vd1 and Vd2 subsets of cd T cells.The in vitro-expanded Vd1 T cells displayed comparable tumour cell-killing activity to Vd2 T cells.Importantly,owing to higher C–C chemokine receptor 4(CCR4)and CCR8 expression,the Vd1 T cells were more prone to infiltrate CCL17-or CCL22-expressing lymphomas than the Vd2 T cells.Characterizing the peripheral blood cd T cells from lymphoma patients further confirmed that the anti-cd TCR antibody-expanded cd T cells could be a more efficacious choice for the treatment of lymphoid malignancies than phosphoantigen-expanded cd T cells.展开更多
Insufficient infiltration of T cells severely compromises the antitumor efficacy of adoptive cell therapy(ACT)against solid tumors.Here,we present a facile immune cell surface engineering strategy aiming to substantia...Insufficient infiltration of T cells severely compromises the antitumor efficacy of adoptive cell therapy(ACT)against solid tumors.Here,we present a facile immune cell surface engineering strategy aiming to substantially enhance the anti-tumor efficacy of Th9-mediated ACT by rapidly identifying tumor-specific binding ligands and improving the infiltration of infused cells into solid tumors.Non-genetic decoration of Th9 cells with tumor-targeting peptide screened from phage display not only allowed precise targeted ACT against highly heterogeneous solid tumors but also substantially enhanced infiltration of CD8+T cells,which led to improved antitumor outcomes.Mechanistically,infusion of Th9 cells modified with tumor-specific binding ligands facilitated the enhanced distribution of tumor-killing cells and remodeled the immunosuppressive microenvironment of solid tumors via IL-9 mediated immunomodulation.Overall,we presented a simple,cost-effective,and cell-friendly strategy to enhance the efficacy of ACT against solid tumors with the potential to complement the current ACT.展开更多
Adoptive cell therapy(ACT)is an immunotherapy strategy for cancer that has seen widespread clinical success.During ACT,patient-derived lymphocytes are stimulated with the antigen of interest ex vivo,proliferated,then ...Adoptive cell therapy(ACT)is an immunotherapy strategy for cancer that has seen widespread clinical success.During ACT,patient-derived lymphocytes are stimulated with the antigen of interest ex vivo,proliferated,then returned to the patient to initiate an antigen-specific antitumor response.While effective,this process is resource-intensive and logistically impossible for many patients.Particulate artificial antigen presenting cells(aAPCs)offer a potential“off-the-shelf”alternative to ex vivo ACT.While particulate aAPCs perform well in vitro,they have had limited success in vivo due to poor bioavailability after injection.Barriers to bioavailability include rapid clearance,unfavorable biodistribution,and inadequate interactions with CD8+T cells at sites of interest.Biomaterial properties such as elasticity have been shown to vastly impact the bioavailability and particle-cell interactions,but this has yet to be investigated in the context of aAPCs for in vivo T-cell stimulation.Previous literature likewise indicates that biomaterial properties,especially elasticity,can modulate T-cell activation in vitro.With the goal of creating a more biomimetic,next-generation particulate aAPC,we developed a poly(ethylene)glycol hydrogel particle platform with tunable elasticity to investigate the impact of elasticity on antigen-specific T cell activation for in vivo adoptive transfer.Using this knowledge,we were able to gain more precise control over in vivo T cell activation and investigate possible mechanisms including the effects of aAPC elasticity on T cell binding,macrophage uptake,and the protein corona.展开更多
Immunotherapy has shown robust efficacy in treating a broad spectrum of hematological and solid cancers.Despite the transformative impact of immunotherapy on cancer treatment,several outstanding challenges remain.Thes...Immunotherapy has shown robust efficacy in treating a broad spectrum of hematological and solid cancers.Despite the transformative impact of immunotherapy on cancer treatment,several outstanding challenges remain.These challenges include on-target off-tumor toxicity,systemic toxicity,and the complexity of achieving potent and sustainable therapeutic efficacy.Synthetic biology has emerged as a promising approach to overcome these obstacles,offering innovative tools for engineering living cells with customized functions.This review provides an overview of the current landscape and future prospects of cancer immunotherapy,particularly emphasizing the role of synthetic biology in augmenting its specificity,controllability,and efficacy.We delineate and discuss two principal synthetic biology strategies:those targeting tumor surface antigens with engineered immune cells and those detecting intratumoral disease signatures with engineered gene circuits.This review concludes with a forwardlooking perspective on the enduring challenges in cancer immunotherapy and the potential breakthroughs that synthetic biology may contribute to the field.展开更多
基金supported by the Key Research&Development Plan of Zhejiang Province(Nos.2019C03050 and 2021C03118)the National Key Research and Development Program of China(No.2021YFA1100500)the National Natural Science Foundation of China(No.92159202)。
文摘Tumor recurrence is one of the major life-threatening complications after liver transplantation for liver cancer.In addition to the common mechanisms underlying tumor recurrence,another unavoidable problem is that the immunosuppressive therapeutic regimen after transplantation could promote tumor recurrence and metastasis.Transplant oncology is an emerging field that addresses oncological challenges in transplantation.In this context,a comprehensive therapeutic management approach is required to balance the anti-tumor treatment and immunosuppressive status of recipients.Double-negative T cells(DNTs)are a cluster of heterogeneous cells mainly consisting of two subsets stratified by T cell receptor(TCR)type.Among them,TCRαβ^(+)DNTs are considered to induce immune suppression in immune-mediated diseases,while TCRγδ^(+)DNTs are widely recognized as tumor killers.As a composite cell therapy,healthy donor-derived DNTs can be propagated to therapeutic numbers in vitro and applied for the treatment of several malignancies without impairing normal tissues or being rejected by the host.In this work,we summarized the biological characteristics and functions of DNTs in oncology,immunology,and transplantation.Based on the multiple roles of DNTs,we propose that a new balance could be achieved in liver transplant oncology using them as an off-the-shelf adoptive cell therapy(ACT).
基金supported by the National Natural Science Foundation of China(No.82020108004 and 81873424)the Natural Science Foundation of Chongqing,China(No.CSTB2022NSCQ-MSX1287)+2 种基金Special Funding for the Frontiers of Military Medical Basics(No.2018YQYLY002)Key Technical Innovation Projects in Clinical Fields of Xinqiao Hospital(No.2018JSLC0020)the Young Doctor Talent Incubation Program of Xinqiao Hospital(No.2022YQB016).
文摘Adoptive cell therapy(ACT)has emerged with remarkable efficacies for tumor immunotherapy.Chimeric antigen receptor(CAR)T cell therapy,as one of most promising ACTs,has achieved prominent effects in treating malignant hematological tumors.However,the insufficient killing activity and limited persistence of T cells in the immunosuppressive tumor microenvironment limit the further application of ACTs for cancer patients.Many studies have focused on improving cytotoxicity and persistence of T cells to achieve improved therapeutic effects.In this study,we explored the potential function in ACT of ginsenoside Rg1,the main pharmacologically active component of ginseng.We introduced Rg1 during the in vitro activation and expansion phase of T cells,and found that Rg1 treatment upregulated two T cell activation markers,CD69 and CD25,while promoting T cell differentiation towards a mature state.Transcriptome sequencing revealed that Rg1 influenced T cell metabolic reprogramming by strengthening mitochondrial biosynthesis.When co-cultured with tumor cells,Rg1-treated T cells showed stronger cytotoxicity than untreated cells.Moreover,adding Rg1 to the culture endowed CAR-T cells with enhanced anti-tumor efficacy.This study suggests that ginsenoside Rg1 provides a potential approach for improving the anti-tumor efficacy of ACT by enhancing T cell effector functions.
基金supported by grants from National Key Research and Development Program of China(No.2021YFA1100500)the Major Research Plan of the National Natural Science Foundation of China(No.92159202)+3 种基金Key Program,National Natural Science Foundation of China(No.81930016)Key Research&Development Plan of Zhejiang Province(No.2019C0350)Key Research&Development Program of Zhejiang Province(No.2022C03108)Young Program of National Natural Science Funds(No.81802889).
文摘Liver transplantation(LT)is a highly curative therapy for patients with hepatocellular carcinoma(HCC).However,due to the shortage of donor livers and rapid progression of HCC,a majority of patients are dropped out from the waitlist.Recently,immunotherapy has shown great promise in the treatment of advanced HCC.However,the use of immunotherapy is limited in LT mainly due to the potentially increasing risk of graft rejection.One of the main challenges for researchers is the protection of donor graft from an immunotherapy-boosted immune response mounted by the host.Besides,the safety,availability,and costs of immunotherapy are other challenges that need to be addressed.Here,we reviewed the literature involving patients who received immunotherapy prior to transplant to avoid waitlist dropouts and following transplantation to prevent the progression of tumor recurrence and metastasis.Statistically,the incidence of rejection was 25.0%pre-transplant and 18.5%post-transplant.Based on the review of these clinical studies,we can conclude that conducting clinical trials on the safety and efficacy of currently available immunotherapy drugs and identifying novel immunotherapy targets through extensive research may be promising for patients who do not meet the selection criteria for LT and who experience post-transplant recurrence.To date,the clinical experience on the use of immunotherapy before or after LT comes from individual case studies.Although some of the reported results are promising,they are not sufficient to support the standardized use of immunotherapy in clinical practice.
基金supported by the National Natural Science Foundation of China,China(82072087,31670880 and 31970893)Guangdong Natural Science Fund for Distinguished Young Scholars,China(2017A030306016 and 2016A030306004)Fundamental Research Funds for the Central Universities,China(19ykzd39)
文摘Adoptive cell therapy(ACT)is an emerging powerful cancer immunotherapy,which includes a complex process of genetic modification,stimulation and expansion.During these in vitro or ex vivo manipulation,sensitive cells are inescapability subjected to harmful external stimuli.Although a variety of cytoprotection strategies have been developed,their application on ACT remains challenging.Herein,a DNA network is constructed on cell surface by rolling circle amplification(RCA),and T cell-targeted trivalent tetrahedral DNA nanostructure is used as a rigid scaffold to achieve high-efficient and selective coating for T cells.The cytoprotective DNA network on T-cell surface makes them aggregate over time to form cell clusters,which exhibit more resistance to external stimuli and enhanced activities in human peripheral blood mononuclear cells and liver cancer organoid killing model.Overall,this work provides a novel strategy for in vitro T cell-selective protection,which has a great potential for application in ACT.
文摘Hepatocellular carcinoma,the most common primary liver cancer,in an immunogenic tumor with a poor prognosis because these tumors are diagnosed at late stages.Although,surgical resection,ablation,liver transplant,and locoregional therapies are available for early stages;however,there are yet no effective treatment for advanced and recurrent tumors.Immune checkpoint inhibitor therapy and adoptive cell transfer therapy has gained the popularity with some positive results because these therapies overcome anergy and systemic immune suppression.However,still there is a lack of an effective treatment and thus there is an unmet need of a novel treatment.At present,the focus of the research is on oncolytic viral therapy and combination therapy where therapies including radiotherapy,immune checkpoint therapy,adoptive cell transfer therapy,and vaccines are combined to get an additive or synergistic effect enhancing the immune response of the liver with a cytotoxic effect on tumor cells.This review discusses the recent key development,the basis of drug resistance,immune evasion,immune tolerance,the available therapies based on stage of the tumor,and the ongoing clinical trials on immune checkpoint inhibitor therapy,adoptive cell transfer therapy,oncolytic viral vaccine therapy,and combination therapy.
基金This research was supported by the Clinical Frontier Technology Program of the First Affiliated Hospital of Jinan University,China(No.JNU1AF-CFTP-2022-a01223)Natural Science Foundation of Guangdong Province(2019A1515011763,2020A1515110639,2021A1515010994,2022A1515011695)Guangzhou Science and Technology Plan City-School Joint Funding Project(202201020084,202201020065).
文摘Neoantigen-targeted immunotherapy is a rapidly advancing field that holds great promise for treating cancer.The recognition of antigens by immune cells is a crucial step in tumor-specific killing,and neoantigens generated by mutations in cancer cells possess high immunogenicity and are selectively expressed in tumor cells,making them an attractive therapeutic target.Currently,neoantigens find utility in various domains,primarily in the realm of neoantigen vaccines such as DC vaccines,nucleic acid vaccines,and synthetic long peptide vaccines.Additionally,they hold promise in adoptive cell therapy,encompassing tumor-infiltrating cells,T cell receptors,and chimeric antigen receptors which are expressed by genetically modified T cells.In this review,we summarized recent progress in the clinical use of tumor vaccines and adoptive cell therapy targeting neoantigens,discussed the potential of neoantigen burden as an immune checkpoint in clinical settings.With the aid of state-of-the-art sequencing and bioinformatics technologies,together with significant advancements in artificial intelligence,we anticipated that neoantigens will be fully exploited for personalized tumor immunotherapy,from screening to clinical application.
基金Science,Technology and Innovation Commission of Shenzhen Municipality,Grant/Award Number:CYJ20170412155231633Health Commission of Shenzhen Municipality,Grant/Award Number:SZXK062。
文摘Background:Since RNA sequencing has shown that induced pluripotent stem cells(iPSCs)share a common antigen profile with tumor cells,cancer vaccines that focus on iPSCs have made promising progress in recent years.Previously,we showed that iPSCs derived from leukemic cells of patients with primary T cell acute lymphoblastic leukemia(T-ALL)have a gene expression profile similar to that of T-ALL cell lines.Methods:Mice with T-ALL were treated with dendritic and T(DC-T)cells loaded with intact and complete antigens from T-ALL-derived iPSCs(T-ALL-iPSCs).We evaluated the safety and antitumor efficiency of autologous tumor-derived iPSC antigens by flow cytometry,cytokine release assay,acute toxicity experiments,long-term toxicity experiments,and other methods.Results:Our results indicate that complete tumor antigens from T-ALL-iPSCs could inhibit the growth of inoculated tumors in immunocompromised mice without causing acute and long-term toxicity.Conclusion:T-ALL-iPSC-based treatment is safe and can be used as a potential strategy for leukemia immunotherapy.
基金Supported by Research Center for Innovative Cancer Therapy,Cancer Vaccine Development Division,Kurume University to Matsueda Sin part by the Office of Research and Development Medical Research Service Department of Veterans Affairs,Public Health Service grants DK067366 and DK56338 which funds the Texas Medical Center Digestive Diseases Center to Graham DY
文摘Gastric cancer is the second most common of cancerrelated deaths worldwide.In the majority of cases gastric cancer is advanced at diagnosis and although medical and surgical treatments have improved,survival rates remain poor.Cancer immunotherapy has emerged as a powerful and promising clinical approach for treatment of cancer and has shown major success in breast cancer,prostate cancer and melanoma.Here,we provide an overview of concepts of modern cancer immunotherapy including the theory,current approaches,remaining hurdles to be overcome,and the future prospect of cancer immunotherapy in the treatment of gastric cancer.Adaptive cell therapies,cancer vaccines,gene therapies,monoclonal antibody therapies have all been used with some initial successes in gastric cancer.However,to date the results in gastric cancer have been disappointing as current approaches often do not stimulate immunity efficiently allowing tumors continue to grow despite the presence of a measurable immune response.Here,we discuss the identification of targets for immunotherapy and the role of biomarkers in prospectively identifying appropriate subjects or immunotherapy.We also discuss the molecular mechanisms by which tumor cells escape host immunosurveillance and produce an immunosuppressive tumor microenvironment.We show how advances have provided tools for overcoming the mechanisms of immunosuppression including the use of monoclonal antibodies to block negative regulators normally expressed on the surface of T cells which limit activation and proliferation of cytotoxic T cells.Immunotherapy has greatly improved and is becoming an important factor in such fields as medical care and welfare for human being.Progress has been rapid ensuring that the future of immunotherapy for gastric cancer is bright.
文摘Human colorectal cancer(CRC) is the third most commonly diagnosed malignancies and the prognosis for patients with recurrent or metastatic disease is extremely poor. Although new chemotherapeutic regimen improves survival rates, therapy with better efficacy and less adverse effects is drastically needed. Immunotherapy has been investigated in human CRC for decades with limited success. However, recent developments of immunotherapy, particularly immune checkpoint inhibitor therapy, have achieved promising clinical benefits in many types of cancer and revived the hope for utilizing such therapy in human CRC. In this review, we will discuss important immunological landscape within the CRC microenvironment and introduce immunoscore system to better describe immunophenotyping in CRC. We will also discuss different immunotherapeutic approaches currently utilized in different phases of clinical trials. Some of those completed or ongoing trials are summarized. Finally, we provide a brief prospective on the future human CRC immunotherapy.
基金supported by grants from the National Key R&D Program of China(No.2022YFA0912400)the Original Exploration Program of the National Natural Science Foundation of China(No.82150110)the Beijing Hospitals Authority’s Ascent Plan(Code:DFL20221502).
文摘Hepatocellular carcinoma(HCC)is a leading cause of cancer-related deaths worldwide.Its high recurrence rate and lack of effective control drugs result in a 5-year survival rate of only about 10%.HCC is a tumor regulated by the immune system.Significant breakthroughs have occurred in treating solid tumors with immunotherapy in recent years.Various immunotherapies,such as immune checkpoint inhibitors(ICIs),including combination therapies,have demonstrated promising therapeutic effects in both clinical applications and research.Other immunotherapies,such as adoptive cell therapies and oncolytic viruses,are also emerging,offering hope for addressing long-term survival issues in HCC.This article reviews current commonly used immunotherapy strategies and the latest research findings for reference.
文摘Penile cancer is a rare genitourinary malignancy with a greater incidence in parts of Asia,South America,and Africa.Outcomes are very poor in patients with advanced disease and in those who do not respond to frstine mutimodal therapy.Among systemic therapy options,platinum-based chemotherapy is used in the frst line;however,approximately half of patients do not benefit.Response rates to systeric therapy as subsequent line treatment are historically dismal.There is also a paucity of prognostic and predictive tools within the context of penile cancer.As such,there remains an urgent need to expand systemic treatment options for patients with advanced penile cancer.The purpose of this review is to summarize the existing evidence for standard-of-care lines of systemic treatment,examine the potential of novel lines of systemic therapy,and provide an update as to the status of these new therapies within the context of penile cancer.
文摘Adoptive cell therapy and Immune Checkpoint Blockade Inhibitors have recently revolutionized the field of oncology.However,these types of immunotherapeutic approaches have limited success in treating solid tumors.In particular,chimeric antigen receptor(CAR)-T cells efficacy is hampered by immunosuppressive signals in the tumor microenvironment(TME)and by a limited infiltration of re-infused T cells to the tumor site.The field of nanobiotechnology applied to oncology is also rapidly expanding.Nanoparticles-based delivery systems can be employed to modulate the activity of immune cells present in the TME enhancing the efficacy of CAR-T cells.Interestingly,nano-backpacks can be attached to CAR-T cells prior to re-infusion to support their homing to the tumor site and to slowly release immunopotentiators directly in the TME.Furthermore,nanovaccines can also be employed to support the in vivo expansion of CAR-T cells with consequent enhancement of their therapeutic potential.In this viewpoint,recent advancement in the field of nanobiotechnology to support CAR-T cell therapy will be discussed.The development of novel therapeutic CAR-T cells protocols together with nanotherapies is warranted in order to take full advantage of the high therapeutic potential of CAR-T cell therapy.
文摘B cell malignancies pose challenges due to therapeutic resistance and repeated relapse.Advances in adoptive cellular therapies including chimeric antigen receptor(CAR)-T cells have the potential to transform the treat-ment landscape in hematological and solid tumor cancers.Improvements in constructs of CAR-T have improved specificity in targeting malignant cells.Multiple clinical trials have demonstrated the efficacy of CAR-T and other cellular treatments.In spite of advances in cellular therapies,hurdles in managing toxicities and lingering resis-tance remain.This review aims to summarize current innovations in adoptive cellular therapies and introduces future paths of discovery that will enhance these therapies in the era of precision oncology.
基金supported in part by grants from the Special Fund of Clinical Medicine in Jiangsu Province(BL2013038)the Graduate Student Innovation Fund(CXZZ12_0563)
文摘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.
基金This work was partly supported by Japan Agency for Medical Research and Development(Grant Nos.17ck0106364h0003 and 20ck0106543h0001)the Japan Society for the Promotion of Science(Grant No.19H03522).
文摘With the significant advances in cancer genomics using next-generation sequencing technologies,genomic and molecular profilingbased precision medicine is used as a part of routine clinical test for guiding and selecting the most appropriate treatments for individual cancer patients.Although many molecular-targeted therapies for a number of actionable genomic alterations have been developed,the clinical application of such information is still limited to a small proportion of cancer patients.In this review,we summarize the current status of personalized drug selection based on genomic and molecular profiling and highlight the challenges how we can further utilize the individual genomic information.Cancer immunotherapies,including immune checkpoint inhibitors,would be one of the potential approaches to apply the results of genomic sequencing most effectively.Highly cancer-specific antigens derived from somatic mutations,the so-called neoantigens,occurring in individual cancers have been in focus recently.Cancer immunotherapies,which target neoantigens,could lead to a precise treatment for cancer patients,despite the challenge in accurately predicting neoantigens that can induce cytotoxic T cells in individual patients.Precise prediction of neoantigens should accelerate the development of personalized immunotherapy including cancer vaccines and T-cell receptor-engineered T-cell therapy for a broader range of cancer patients.
文摘Hepatocellular carcinoma(HCC)is the most common primary malignancy of the liver and is unfortunately associated with an overall poor prognosis and high mortality.Early and intermediate stages of HCC allow for treatment with surgical resection,ablation and even liver transplantation,however disease progression warrants conventional systemic therapy.For years treatment options were limited to molecular-targeting medications,of which sorafenib remains the standard of care.The recent development and success of immune checkpoint inhibitors has proven to be a breakthrough in the treatment of HCC,but there is an urgent need for the development of further novel therapeutic treatments that prolong overall survival and minimize recurrence.Current investigation is focused on adoptive cell therapy including chimeric antigen receptor-T cells(CAR-T cells),T cell receptor(TCR)engineered T cells,dendritic cells,natural killer cells,and tumor infiltrating lymphocyte cells,which have shown remarkable success in the treatment of hematological and solid tumor malignancies.In this review we briefly introduce readers to the currently approved systemic treatment options and present clinical and experimental evidence of HCC immunotherapeutic treatments that will hopefully one day allow for revolutionary change in the treatment modalities used for unresectable HCC.We also provide an up-to-date compilation of ongoing clinical trials investigating CAR-T cells,TCR engineered T cells,cancer vaccines and oncolytic viruses,while discussing strategies that can help overcome commonly faced challenges when utilizing cellular based treatments.
基金two grants(No.2006AA02Z480 and No.2007AA021109)from the National High Technology Research and Development Program(863 Program)one grant(No.30972776)from the National Natural Science Foundation of China.
文摘Cell-based immunotherapy for lymphoid malignancies has gained increasing attention as patients develop resistance to conventional treatments.cd T cells,which have major histocompatibility complex(MHC)-unrestricted lytic activity,have become a promising candidate population for adoptive cell transfer therapy.We previously established a stable condition for expanding cd T cells by using anti-cd T-cell receptor(TCR)antibody.In this study,we found that adoptive transfer of the expanded cd T cells to Daudi lymphoma-bearing nude mice significantly prolonged the survival time of the mice and improved their living status.We further investigated the characteristics of these antibody-expanded cd T cells compared to the more commonly used phosphoantigen-expanded cd T cells and evaluated the feasibility of employing them in the treatment of lymphoid malignancies.Slow but sustained proliferation of human peripheral blood cd T cells was observed upon stimulation with anti-cd TCR antibody.Compared to phosphoantigen-stimulated cd T cells,the antibody-expanded cells manifested similar functional phenotypes and cytotoxic activity towards lymphoma cell lines.It is noteworthy that the anti-cd TCR antibody could expand both the Vd1 and Vd2 subsets of cd T cells.The in vitro-expanded Vd1 T cells displayed comparable tumour cell-killing activity to Vd2 T cells.Importantly,owing to higher C–C chemokine receptor 4(CCR4)and CCR8 expression,the Vd1 T cells were more prone to infiltrate CCL17-or CCL22-expressing lymphomas than the Vd2 T cells.Characterizing the peripheral blood cd T cells from lymphoma patients further confirmed that the anti-cd TCR antibody-expanded cd T cells could be a more efficacious choice for the treatment of lymphoid malignancies than phosphoantigen-expanded cd T cells.
基金This work was supported by National Natural Science Foundation of China(81872173,82072959,31870959,and 82102855)Zhejiang Province Natural Science Foundation(LY20H160018,LD21H160002,and LY19H160045).
文摘Insufficient infiltration of T cells severely compromises the antitumor efficacy of adoptive cell therapy(ACT)against solid tumors.Here,we present a facile immune cell surface engineering strategy aiming to substantially enhance the anti-tumor efficacy of Th9-mediated ACT by rapidly identifying tumor-specific binding ligands and improving the infiltration of infused cells into solid tumors.Non-genetic decoration of Th9 cells with tumor-targeting peptide screened from phage display not only allowed precise targeted ACT against highly heterogeneous solid tumors but also substantially enhanced infiltration of CD8+T cells,which led to improved antitumor outcomes.Mechanistically,infusion of Th9 cells modified with tumor-specific binding ligands facilitated the enhanced distribution of tumor-killing cells and remodeled the immunosuppressive microenvironment of solid tumors via IL-9 mediated immunomodulation.Overall,we presented a simple,cost-effective,and cell-friendly strategy to enhance the efficacy of ACT against solid tumors with the potential to complement the current ACT.
基金the NIH for support of this research(P41EB028239)the National Science Foundation Graduate Research Fellowship(Nos.DGE-1746891(SEW)and DGE-1746891(SRS)).
文摘Adoptive cell therapy(ACT)is an immunotherapy strategy for cancer that has seen widespread clinical success.During ACT,patient-derived lymphocytes are stimulated with the antigen of interest ex vivo,proliferated,then returned to the patient to initiate an antigen-specific antitumor response.While effective,this process is resource-intensive and logistically impossible for many patients.Particulate artificial antigen presenting cells(aAPCs)offer a potential“off-the-shelf”alternative to ex vivo ACT.While particulate aAPCs perform well in vitro,they have had limited success in vivo due to poor bioavailability after injection.Barriers to bioavailability include rapid clearance,unfavorable biodistribution,and inadequate interactions with CD8+T cells at sites of interest.Biomaterial properties such as elasticity have been shown to vastly impact the bioavailability and particle-cell interactions,but this has yet to be investigated in the context of aAPCs for in vivo T-cell stimulation.Previous literature likewise indicates that biomaterial properties,especially elasticity,can modulate T-cell activation in vitro.With the goal of creating a more biomimetic,next-generation particulate aAPC,we developed a poly(ethylene)glycol hydrogel particle platform with tunable elasticity to investigate the impact of elasticity on antigen-specific T cell activation for in vivo adoptive transfer.Using this knowledge,we were able to gain more precise control over in vivo T cell activation and investigate possible mechanisms including the effects of aAPC elasticity on T cell binding,macrophage uptake,and the protein corona.
文摘Immunotherapy has shown robust efficacy in treating a broad spectrum of hematological and solid cancers.Despite the transformative impact of immunotherapy on cancer treatment,several outstanding challenges remain.These challenges include on-target off-tumor toxicity,systemic toxicity,and the complexity of achieving potent and sustainable therapeutic efficacy.Synthetic biology has emerged as a promising approach to overcome these obstacles,offering innovative tools for engineering living cells with customized functions.This review provides an overview of the current landscape and future prospects of cancer immunotherapy,particularly emphasizing the role of synthetic biology in augmenting its specificity,controllability,and efficacy.We delineate and discuss two principal synthetic biology strategies:those targeting tumor surface antigens with engineered immune cells and those detecting intratumoral disease signatures with engineered gene circuits.This review concludes with a forwardlooking perspective on the enduring challenges in cancer immunotherapy and the potential breakthroughs that synthetic biology may contribute to the field.