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5. A new weapon: the application of tumor vaccines based on extracellular exosomal heat shock proteins in immunotherapy.

Author

Yi, Kexin, Sun, Chengpeng, Yuan, Yalin, Luo, Zhaowei, Luo, Hongliang, and Xie, Yunhe

Subjects
HEAT shock proteins, CANCER vaccines, EXTRACELLULAR space, TUMOR antigens, ANTINEOPLASTIC agents
Abstract

Despite the significant advancements in cancer research, innovative approaches are still needed to reduce tumor incidence, progression, and dissemination, as well as for prolonging patient survival. Currently, the development of cancer vaccines is gaining attention as a novel preventative and therapeutic strategy. Although the concept of cancer vaccination is not new, a limited number of vaccines have received approval for tumor therapy. Heat shock protein (HSP)-based vaccination represents a promising strategy that harnesses specific tumor antigens to activate immune responses. Exosomes (Exs) are highly heterogeneous bilayer vesicles capable of transporting various types of molecules through extracellular space. Compared with conventional anticancer drugs, exosomes exhibit low toxicity and good biocompatibility, and they can stimulate the immune system either directly or indirectly. Ex-based vaccines may elicit an antitumor immune response that generates memory cells capable of recognizing cancer antigens, thereby inhibiting disease progression. This paper reviews the potential applications of HSPs and exosomes in the prevention and treatment of solid tumors. Finally, we discuss the advantages of the extracellular exosomal heat shock protein (HSP-Ex1) vaccine and future research directions aimed at optimizing heat shock protein-based cancer immunotherapy strategies. [ABSTRACT FROM AUTHOR]

Published
2025
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6. Neo-BCV: A Novel Bacterial Liquid Complex Vaccine for Enhancing Dendritic Cell-Mediated Immune Responses Against Lung Cancer.

Author

Zhu, Zilong, Chu, Zhuze, Fei, Fei, Wu, Chenxi, Fei, Zhengyue, Sun, Yuxia, Chen, Yun, and Lu, Peihua

Subjects
NON-small-cell lung carcinoma, CYTOTOXIC T cells, POISONS, BACTERIAL vaccines, DENDRITIC cells
Abstract

Background: In the past decade, immunotherapy has become a major choice for the treatment of lung cancer, yet its therapeutic efficacy is still relatively limited due to the various immune escape mechanisms of tumors. Based on this, we introduce Neo-BCV, a novel bacterial composite vaccine designed to enhance immune responses against lung cancer. Methods: We investigated the immune enhancing effect of Neo-BCV through in vivo and in vitro experiments, including flow cytometry, RNA-seq, and Western blot. Results: We have demonstrated that Neo-BCV can promote Dendritic cells (DCs) maturation and induce DCs differentiation into pro-inflammatory subgroups, significantly enhancing cytotoxic T lymphocyte (CTL)-mediated anti-tumor responses. Transcriptome sequencing revealed that Neo-BCV exerts its effects by specifically inhibiting the JAK2-STAT3 signaling pathway, a crucial regulator of cancer progression, metabolism, and inflammation. Moreover, Neo-BCV significantly improved the immune microenvironment in both tumor and spleen tissues without inducing notable toxic effects in major organs. Conclusions: These findings highlight Neo-BCV's potential as a safe and effective therapeutic strategy, offering a novel avenue for clinical translation in lung cancer immunotherapy. [ABSTRACT FROM AUTHOR]

Published
2025
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7. Clinical immunotherapy in glioma: current concepts, challenges, and future perspectives.

Author

Liu, Jun, Peng, Jingjian, Jiang, Jian, and Liu, Yanhui

Subjects
IMMUNE checkpoint inhibitors, NON-small-cell lung carcinoma, ONCOLYTIC virotherapy, CANCER vaccines, CANCER invasiveness, IMMUNOTHERAPY
Abstract

Glioma is one of the common tumors in the central nervous system, and its treatment methods (surgery, radiotherapy, and chemotherapy) lack specificity and have a poor prognosis. With the development of immunology, cell biology, and genomics, tumor immunotherapy has ushered in a new era of tumor therapy, achieving significant results in other invasive cancers such as advanced melanoma and advanced non-small cell lung cancer. Currently, the clinical trials of immunotherapy in glioma are also progressing rapidly. Here, this review summarizes promising immunotherapy methods in recent years, reviews the current status of clinical trials, and discusses the challenges and prospects of glioma immunotherapy. [ABSTRACT FROM AUTHOR]

Published
2024
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8. In vivo fluorescence flow cytometry reveals that the nanoparticle tumor vaccine OVA@HA-PEI effectively clears circulating tumor cells.

Author

Jin, Wei, Fu, Yuting, Ge, Sisi, Sun, Han, Pang, Kai, and Wei, Xunbin

Subjects
*CANCER vaccines, *TUMOR antigens, *FLOW cytometry, *HYALURONIC acid, *CLINICAL medicine, *POLYETHYLENEIMINE
Abstract

Tumor vaccine therapy offers significant advantages over conventional treatments, including reduced toxic side effects. However, it currently functions primarily as an adjuvant treatment modality in clinical oncology due to limitations in tumor antigen selection and delivery methods. Tumor vaccines often fail to elicit a sufficiently robust immune response against progressive tumors, thereby limiting their clinical efficacy. In this study, we developed a nanoparticle-based tumor vaccine, OVA@HA-PEI, utilizing ovalbumin (OVA) as the presenting antigen and hyaluronic acid (HA) and polyethyleneimine (PEI) as adjuvants and carriers. This formulation significantly enhanced the proliferation of immune cells and cytokines, such as CD3, CD8, interferon- γ , and tumor necrosis factor- α , in vivo, effectively activating an immune response against B16–F10 tumors. In vivo fluorescence flow cytometry (IVFC) has already become an effective method for monitoring circulating tumor cells (CTCs) due to its direct, noninvasive, and long-term detection capabilities. Our study utilized a laboratory-constructed IVFC system to monitor the immune processes induced by the OVA@HA-PEI tumor vaccine and an anti-programmed death-1 (PD-1) antibody. The results demonstrated that the combined treatment of OVA@HA-PEI and anti-PD-1 antibody significantly improved the survival time of mice compared to anti-PD-1 antibody treatment alone. Additionally, this combination therapy substantially reduced the number of CTCs in vivo, increased the clearance rate of CTCs by the immune system, and slowed tumor progression. These findings greatly enhance the clinical application prospects of IVFC and tumor vaccines. [ABSTRACT FROM AUTHOR]

Published
2024
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9. A new weapon: the application of tumor vaccines based on extracellular exosomal heat shock proteins in immunotherapy

Author

Kexin Yi, Chengpeng Sun, Yalin Yuan, Zhaowei Luo, Hongliang Luo, and Yunhe Xie

Subjects
heat shock proteins, exosomes, immunotherapy, tumor vaccines, tumor microenvironment, Immunologic diseases. Allergy, RC581-607
Abstract

Despite the significant advancements in cancer research, innovative approaches are still needed to reduce tumor incidence, progression, and dissemination, as well as for prolonging patient survival. Currently, the development of cancer vaccines is gaining attention as a novel preventative and therapeutic strategy. Although the concept of cancer vaccination is not new, a limited number of vaccines have received approval for tumor therapy. Heat shock protein (HSP)-based vaccination represents a promising strategy that harnesses specific tumor antigens to activate immune responses. Exosomes (Exs) are highly heterogeneous bilayer vesicles capable of transporting various types of molecules through extracellular space. Compared with conventional anticancer drugs, exosomes exhibit low toxicity and good biocompatibility, and they can stimulate the immune system either directly or indirectly. Ex-based vaccines may elicit an antitumor immune response that generates memory cells capable of recognizing cancer antigens, thereby inhibiting disease progression. This paper reviews the potential applications of HSPs and exosomes in the prevention and treatment of solid tumors. Finally, we discuss the advantages of the extracellular exosomal heat shock protein (HSP-Ex1) vaccine and future research directions aimed at optimizing heat shock protein-based cancer immunotherapy strategies.

Published
2025
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10. Revamping Hepatocellular Carcinoma Immunotherapy: The Advent of Microbial Neoantigen Vaccines.

Author

Liang, Junze, Liao, Yanxia, Tu, Zhiwei, and Liu, Jinping

Subjects
CANCER vaccines, HEPATOCELLULAR carcinoma, INDIVIDUALIZED medicine, COLORECTAL cancer, IMMUNOTHERAPY
Abstract

Immunotherapy has revolutionized the treatment paradigm for hepatocellular carcinoma (HCC). However, its efficacy varies significantly with each patient's genetic composition and the complex interactions with their microbiome, both of which are pivotal in shaping anti-tumor immunity. The emergence of microbial neoantigens, a novel class of tumor vaccines, heralds a transformative shift in HCC therapy. This review explores the untapped potential of microbial neoantigens as innovative tumor vaccines, poised to redefine current HCC treatment modalities. For instance, neoantigens derived from the microbiome have demonstrated the capacity to enhance anti-tumor immunity in colorectal cancer, suggesting similar applications in HCC. By harnessing these unique neoantigens, we propose a framework for a personalized immunotherapeutic response, aiming to deliver a more precise and potent treatment strategy for HCC. Leveraging these neoantigens could significantly advance personalized medicine, potentially revolutionizing patient outcomes in HCC therapy. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Mycobacterium smegmatis enhances shikonin-induced immunogenic cell death —an efficient in situ tumor vaccine strategy.

Author

Zhaoye Qian, Zhe Zhang, Lanqi Cen, Yaohua Ke, Jie Shao, Manman Tian, and Baorui Liu

Subjects
*MYCOBACTERIUM smegmatis, *CANCER vaccines, *SUBCUTANEOUS injections, *IMMUNOLOGIC memory, *VACCINE effectiveness
Abstract

Tumor vaccines are a promising avenue in cancer immunotherapy. Despite the progress in targeting specific immune epitopes, tumor cells lacking these epitopes can evade the treatment. Here, we aimed to construct an efficient in situ tumor vaccine called Vac-SM, utilizing shikonin (SKN) to induce immunogenic cell death (ICD) and Mycobacterium smegmatis as an immune adjuvant to enhance in situ tumor vaccine efficacy. SKN showed a dose-dependent and time-dependent cytotoxic effect on the tumor cell line and induced ICD in tumor cells as evidenced by the CCK-8 assay and the detection of the expression of relevant indicators, respectively. Compared with the control group, the in situ Vac-SM injection in mouse subcutaneous metastatic tumors significantly inhibited tumor growth and distant tumor metastasis, while also improving survival rates. Mycobacterium smegmatis effectively induced maturation and activation of bone marrow-derived dendritic cells (DCs), and in vivo tumor-draining lymph nodes showed an increased maturation of DCs and a higher proportion of effector memory T-cell subsets with the Vac-SM treatment, based on flow cytometry analysis results. Collectively, the Vac-SM vaccine effectively induces ICD, improves antigen presentation by DCs, activates a specific systemic antitumor T-cell immune response, exhibits a favorable safety profile, and holds the promise for clinical translation for local tumor immunotherapy. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Clinical immunotherapy in glioma: current concepts, challenges, and future perspectives

Author

Jun Liu, Jingjian Peng, Jian Jiang, and Yanhui Liu

Subjects
immunotherapy, gliomas, tumor vaccines, immune checkpoint inhibitors, CAR-T, oncolytic virotherapy, Immunologic diseases. Allergy, RC581-607
Abstract

Glioma is one of the common tumors in the central nervous system, and its treatment methods (surgery, radiotherapy, and chemotherapy) lack specificity and have a poor prognosis. With the development of immunology, cell biology, and genomics, tumor immunotherapy has ushered in a new era of tumor therapy, achieving significant results in other invasive cancers such as advanced melanoma and advanced non-small cell lung cancer. Currently, the clinical trials of immunotherapy in glioma are also progressing rapidly. Here, this review summarizes promising immunotherapy methods in recent years, reviews the current status of clinical trials, and discusses the challenges and prospects of glioma immunotherapy.

Published
2024
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13. Construction of lymph nodes-targeting tumor vaccines by using the principle of DNA base complementary pairing to enhance anti-tumor cellular immune response

Author

Yongchao Zha, Li Fu, Zonghua Liu, Jiansheng Lin, and Linghong Huang

Subjects
Tumor immunotherapy, Tumor vaccines, Lymph node targeting, Cellular immunity, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5
Abstract

Abstract Tumor vaccines, a crucial immunotherapy, have gained growing interest because of their unique capability to initiate precise anti-tumor immune responses and establish enduring immune memory. Injected tumor vaccines passively diffuse to the adjacent draining lymph nodes, where the residing antigen-presenting cells capture and present tumor antigens to T cells. This process represents the initial phase of the immune response to the tumor vaccines and constitutes a pivotal determinant of their effectiveness. Nevertheless, the granularity paradox, arising from the different requirements between the passive targeting delivery of tumor vaccines to lymph nodes and the uptake by antigen-presenting cells, diminishes the efficacy of lymph node-targeting tumor vaccines. This study addressed this challenge by employing a vaccine formulation with a tunable, controlled particle size. Manganese dioxide (MnO2) nanoparticles were synthesized, loaded with ovalbumin (OVA), and modified with A50 or T20 DNA single strands to obtain MnO2/OVA/A50 and MnO2/OVA/T20, respectively. Administering the vaccines sequentially, upon reaching the lymph nodes, the two vaccines converge and simultaneously aggregate into MnO2/OVA/A50-T20 particles through base pairing. This process enhances both vaccine uptake and antigen delivery. In vitro and in vivo studies demonstrated that, the combined vaccine, comprising MnO2/OVA/A50 and MnO2/OVA/T20, exhibited robust immunization effects and remarkable anti-tumor efficacy in the melanoma animal models. The strategy of controlling tumor vaccine size and consequently improving tumor antigen presentation efficiency and vaccine efficacy via the DNA base-pairing principle, provides novel concepts for the development of efficient tumor vaccines. Graphical Abstract

Published
2024
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14. Neo-BCV: A Novel Bacterial Liquid Complex Vaccine for Enhancing Dendritic Cell-Mediated Immune Responses Against Lung Cancer

Author

Zilong Zhu, Zhuze Chu, Fei Fei, Chenxi Wu, Zhengyue Fei, Yuxia Sun, Yun Chen, and Peihua Lu

Subjects
tumor vaccines, dendritic cells, JAK2-STAT3 signaling, non-small cell lung cancer, Medicine
Abstract

Background: In the past decade, immunotherapy has become a major choice for the treatment of lung cancer, yet its therapeutic efficacy is still relatively limited due to the various immune escape mechanisms of tumors. Based on this, we introduce Neo-BCV, a novel bacterial composite vaccine designed to enhance immune responses against lung cancer. Methods: We investigated the immune enhancing effect of Neo-BCV through in vivo and in vitro experiments, including flow cytometry, RNA-seq, and Western blot. Results: We have demonstrated that Neo-BCV can promote Dendritic cells (DCs) maturation and induce DCs differentiation into pro-inflammatory subgroups, significantly enhancing cytotoxic T lymphocyte (CTL)-mediated anti-tumor responses. Transcriptome sequencing revealed that Neo-BCV exerts its effects by specifically inhibiting the JAK2-STAT3 signaling pathway, a crucial regulator of cancer progression, metabolism, and inflammation. Moreover, Neo-BCV significantly improved the immune microenvironment in both tumor and spleen tissues without inducing notable toxic effects in major organs. Conclusions: These findings highlight Neo-BCV’s potential as a safe and effective therapeutic strategy, offering a novel avenue for clinical translation in lung cancer immunotherapy.

Published
2025
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16. Design of a single-center, phase II trial to explore the efficacy and safety of 'R-ISV-RO' treatment in advanced tumors.

Author

Min, Limei, Wang, Xiaolu, Chen, Anni, Zhou, Yingling, Ge, Yuchen, Dai, Juanjuan, Chang, Xiaofeng, Sun, Wu, Liu, Qin, Zhou, Xia, Tian, Manman, Kong, Wentao, Zhu, Junmeng, Shen, Jie, Liu, Baorui, and Li, Rutian

Abstract

Background: The authors' preclinical study has confirmed that RO adjuvant (composed of TLR 7 agonists [imiquimod/R837] and OX40 agonists) injected into local lesions induces the regression of both primary tumor and distant metastasis. The authors propose to realize local control and exert abscopal effect through an 'R-ISV-RO' insitu strategy plus anti-PD-1 monoclonal antibody in advanced tumors. Methods: This study is a single-center, exploratory, phase II trial to evaluate the efficacy and safety of R-ISV-RO plus anti-PD-1 monoclonal antibody in advanced tumors. 30 patients with one or more measurable extracerebral lesions that are accessible for radiation or injection will be enrolled. The primary endpoint is the objective response rate of target lesions. Discussion/Conclusion: The efficacy and safety of the novel strategy will be further validated through this clinical trial. Clinical trial registration: ChiCTR2100053870 (www.chictr.org.cn/) Background Radiotherapy and intratumoral injection of immunomodulatory drugs are the two main insitu vaccination techniques. Previous studies have shown that immune radiation induces immunogenic cell death to relieve the suppressive tumor immune microenvironment, while intratumoral injections directly stimulate tumor immune cells and raise local drug concentration to turn the tumor into a vaccine. Methods The authors designed a single-center, single-arm, open-label, exploratory, phase II clinical trial to evaluate efficacy and safety in patients with advanced solid tumors (intervention: 'R-ISV-RO' plus anti-PD-1 monoclonal antibody). Discussion Mechanisms of tumors resistance: the tumor immunosuppressive environment found in immunogenic cold tumors presents significant challenges for tumor immunotherapy owing to low tumor-infiltrating lymphocyte infiltration and adoptive immune resistance. Application of Toll-like receptor (TLR) and OX40 agonist: in clinics, R837 (TLR 7 agonist) and OX40 agonist are frequently utilized. The authors' preclinical research has demonstrated the antitumor activity of the combination of TLR and OX40 agonists. Combination of immunotherapies: combining radiotherapy with intratumoral injection, while working in synergy with PD-1 monoclonal antibody, should reduce systemic therapeutic toxicity and generate a systemic antitumor immune response by making the targeted tumors more immunogenic. The above strategy could modify the condition of the tumor microenvironment, bring about the 'cold-to-hot' transition, remove drug resistance and boost the immune response to therapy. Conclusion The safety and antitumor efficacy of immune checkpoint inhibitors in combination with insitu vaccines will be further validated. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Construction of lymph nodes-targeting tumor vaccines by using the principle of DNA base complementary pairing to enhance anti-tumor cellular immune response.

Author

Zha, Yongchao, Fu, Li, Liu, Zonghua, Lin, Jiansheng, and Huang, Linghong

Subjects
CANCER vaccines, COMPLEMENTARY DNA, IMMUNE response, BASE pairs, COMBINED vaccines, OVALBUMINS, CD8 antigen
Abstract

Tumor vaccines, a crucial immunotherapy, have gained growing interest because of their unique capability to initiate precise anti-tumor immune responses and establish enduring immune memory. Injected tumor vaccines passively diffuse to the adjacent draining lymph nodes, where the residing antigen-presenting cells capture and present tumor antigens to T cells. This process represents the initial phase of the immune response to the tumor vaccines and constitutes a pivotal determinant of their effectiveness. Nevertheless, the granularity paradox, arising from the different requirements between the passive targeting delivery of tumor vaccines to lymph nodes and the uptake by antigen-presenting cells, diminishes the efficacy of lymph node-targeting tumor vaccines. This study addressed this challenge by employing a vaccine formulation with a tunable, controlled particle size. Manganese dioxide (MnO2) nanoparticles were synthesized, loaded with ovalbumin (OVA), and modified with A50 or T20 DNA single strands to obtain MnO2/OVA/A50 and MnO2/OVA/T20, respectively. Administering the vaccines sequentially, upon reaching the lymph nodes, the two vaccines converge and simultaneously aggregate into MnO2/OVA/A50-T20 particles through base pairing. This process enhances both vaccine uptake and antigen delivery. In vitro and in vivo studies demonstrated that, the combined vaccine, comprising MnO2/OVA/A50 and MnO2/OVA/T20, exhibited robust immunization effects and remarkable anti-tumor efficacy in the melanoma animal models. The strategy of controlling tumor vaccine size and consequently improving tumor antigen presentation efficiency and vaccine efficacy via the DNA base-pairing principle, provides novel concepts for the development of efficient tumor vaccines. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Nanomaterial Delivery Vehicles for the Development of Neoantigen Tumor Vaccines for Personalized Treatment.

Author

Huang, Xiaoyu, Zhu, Xiaolong, Yang, Huan, Li, Qinyi, Gai, Lizhi, Sui, Xinbing, Lu, Hua, and Feng, Jiao

Subjects
*CANCER vaccines, *NANOSTRUCTURED materials, *VACCINE development, *DENDRITIC cells, *NUCLEIC acids
Abstract

Tumor vaccines have been considered a promising therapeutic approach for treating cancer in recent years. With the development of sequencing technologies, tumor vaccines based on neoantigens or genomes specifically expressed in tumor cells, mainly in the form of peptides, nucleic acids, and dendritic cells, are beginning to receive widespread attention. Therefore, in this review, we have introduced different forms of neoantigen vaccines and discussed the development of these vaccines in treating cancer. Furthermore, neoantigen vaccines are influenced by factors such as antigen stability, weak immunogenicity, and biosafety in addition to sequencing technology. Hence, the biological nanomaterials, polymeric nanomaterials, inorganic nanomaterials, etc., used as vaccine carriers are principally summarized here, which may contribute to the design of neoantigen vaccines for improved stability and better efficacy. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Global trends in tumor microenvironment-related research on tumor vaccine: a review and bibliometric analysis.

Author

Ying Liu, Sixin Li, Lu Chen, Lin Lin, Caijuan Xu, Huiwen Qiu, Xinyu Li, Hui Cao, and Kun Liu

Subjects
CANCER vaccines, BIBLIOMETRICS, CLINICAL trials, TUMOR microenvironment, VACCINE effectiveness
Abstract

Background: Tumor vaccines have become crucial in cancer immunotherapy, but, only a limited number of phase III clinical trials have demonstrated clinical efficacy. The crux of this issue is the inability of tumor vaccines to effectively harmonize the tumor microenvironment with its intricate interplay. One factor that can hinder the effectiveness of vaccines is the natural immunosuppressive element present in the tumor microenvironment. This element can lead to low rates of T-cell response specific to antigens and the development of acquired resistance. Conversely, anticancer vaccines alter the tumor microenvironment in conflicting manners, inducing both immune activation and immunological evasion. Hence, comprehending the correlation between tumor vaccines and the tumor microenvironment would establish a foundation for forthcoming tumor treatment. Objective: Our review explores the realm of research pertaining to tumor vaccinations and the tumor microenvironment. Our objective is to investigate the correlation between tumor vaccines and the tumor microenvironment within this domain. We then focus our review on the dominant international paradigms in this research field and visually illustrates the historical progression and emergent patterns observed in the past. Methods: From January 1, 1999 to February 7, 2023, 1420 articles on the interplay between tumor vaccines and the tumor microenvironment were published, according to The Clarivate Web of Science (WOS) database used in our review. A bibliometric review was designed for this collection and consisted of an evaluation. The evaluation encompassed various discernible attributes, including the year of publication, the journals in which the articles were published, the authors involved, the affiliated institutions, the geographical locations of the institutions, the references cited, and the keywords employed. Results: Between the years 1999 and 2022, publications saw a significant increase, from 3 to 265 annually. With 72 papers published, Frontiers in Immunology had the most manuscripts published. The Cancer Research publication garnered the highest number of citations, amounting to 2874 citations. The United States exerts significant dominance in the subject, with the National Cancer Institute being recognized as a prominent institution in terms of both productivity and influence. Furthermore, Elizabeth M. Jaffee was recognized as the field's most prolific and influential author with 24 publications and 1,756 citations. The co-occurrence cluster analysis was conducted on the top 197 keywords, resulting in the identification of five distinct clusters. The most recent high-frequency keywords, namely immune therapy, dendritic cell, tumor microenvironment, cancer, and vaccine, signify the emerging frontiers in the interaction between tumor vaccines and the tumor microenvironment. Conclusion: Our review uncovers insights into contemporary trends, global patterns of collaboration, fundamental knowledge, research areas of high interest, and emerging frontiers in the field of TME-targeted vaccines. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Intelligent nanomaterials for cancer therapy: recent progresses and future possibilities

Author

Wang Jing, Zhao Yuliang, and Nie Guangjun

Subjects
intelligent nanomedicine, anti-cancer nanomaterials, tumor microenvironment, tumor vaccines, immunotherapy, personalized medication, Medicine
Abstract

Intelligent nanomedicine is currently one of the most active frontiers in cancer therapy development. Empowered by the recent progresses of nanobiotechnology, a new generation of multifunctional nanotherapeutics and imaging platforms has remarkably improved our capability to cope with the highly heterogeneous and complicated nature of cancer. With rationally designed multifunctionality and programmable assembly of functional subunits, the in vivo behaviors of intelligent nanosystems have become increasingly tunable, making them more efficient in performing sophisticated actions in physiological and pathological microenvironments. In recent years, intelligent nanomaterial-based theranostic platforms have showed great potential in tumor-targeted delivery, biological barrier circumvention, multi-responsive tumor sensing and drug release, as well as convergence with precise medication approaches such as personalized tumor vaccines. On the other hand, the increasing system complexity of anti-cancer nanomedicines also pose significant challenges in characterization, monitoring and clinical use, requesting a more comprehensive and dynamic understanding of nano-bio interactions. This review aims to briefly summarize the recent progresses achieved by intelligent nanomaterials in tumor-targeted drug delivery, tumor immunotherapy and temporospatially specific tumor imaging, as well as important advances of our knowledge on their interaction with biological systems. In the perspective of clinical translation, we have further discussed the major possibilities provided by disease-oriented development of anti-cancer nanomaterials, highlighting the critical importance clinically-oriented system design.

Published
2023
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22. Nanovaccine-based strategies for lymph node targeted delivery and imaging in tumor immunotherapy

Author

Ao He, Xiaoye Li, Zhuo Dai, Qiang Li, Yu Zhang, Meng Ding, Zhi-fa Wen, Yongbin Mou, and Heng Dong

Subjects
Nanovaccines, Tumor vaccines, Targeting lymph node, Lymph node imaging, Tumor immunotherapies, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5
Abstract

Abstract Therapeutic tumor vaccines have attracted considerable attention in the past decade; they can induce tumor regression, eradicate minimal residual disease, establish lasting immune memory and avoid non-specific and adverse side effects. However, the challenge in the field of therapeutic tumor vaccines is ensuring the delivery of immune components to the lymph nodes (LNs) to activate immune cells. The clinical response rate of traditional therapeutic tumor vaccines falls short of expectations due to inadequate lymph node delivery. With the rapid development of nanotechnology, a large number of nanoplatform-based LN-targeting nanovaccines have been exploited for optimizing tumor immunotherapies. In addition, some nanovaccines possess non-invasive visualization performance, which is benefit for understanding the kinetics of nanovaccine exposure in LNs. Herein, we present the parameters of nanoplatforms, such as size, surface modification, shape, and deformability, which affect the LN-targeting functions of nanovaccines. The recent advances in nanoplatforms with different components promoting LN-targeting are also summarized. Furthermore, emerging LNs-targeting nanoplatform-mediated imaging strategies to both improve targeting performance and enhance the quality of LN imaging are discussed. Finally, we summarize the prospects and challenges of nanoplatform-based LN-targeting and /or imaging strategies, which optimize the clinical efficacy of nanovaccines in tumor immunotherapies.

Published
2023
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23. Revamping Hepatocellular Carcinoma Immunotherapy: The Advent of Microbial Neoantigen Vaccines

Author

Junze Liang, Yanxia Liao, Zhiwei Tu, and Jinping Liu

Subjects
hepatocellular carcinoma, immunotherapy, microbial neoantigens, microbiome, tumor vaccines, Medicine
Abstract

Immunotherapy has revolutionized the treatment paradigm for hepatocellular carcinoma (HCC). However, its efficacy varies significantly with each patient’s genetic composition and the complex interactions with their microbiome, both of which are pivotal in shaping anti-tumor immunity. The emergence of microbial neoantigens, a novel class of tumor vaccines, heralds a transformative shift in HCC therapy. This review explores the untapped potential of microbial neoantigens as innovative tumor vaccines, poised to redefine current HCC treatment modalities. For instance, neoantigens derived from the microbiome have demonstrated the capacity to enhance anti-tumor immunity in colorectal cancer, suggesting similar applications in HCC. By harnessing these unique neoantigens, we propose a framework for a personalized immunotherapeutic response, aiming to deliver a more precise and potent treatment strategy for HCC. Leveraging these neoantigens could significantly advance personalized medicine, potentially revolutionizing patient outcomes in HCC therapy.

Published
2024
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24. Recent highlights of cancer immunotherapy.

Author

Fan, Xianqun

Subjects
IMMUNE checkpoint inhibitors, CELL receptors, CIRCADIAN rhythms, LYMPH nodes, TREATMENT effectiveness, GENETIC engineering, TUMORS, T cells, CANCER vaccines, IMMUNOTHERAPY
Abstract

Cancer immunotherapy represents a groundbreaking paradigm shift in the field of cancer treatment, harnessing the power of the immune system to combat cancer cells. As an innovative approach, it has shown immense promise and has revolutionized the way we perceive and treat cancer. This commentary aims to highlight the recent important advances in cancer immunotherapy, including immune checkpoint blockade therapy, chimeric antigen receptor T cell therapy, T cell receptor-gene engineered T cell therapy, and tumor vaccines. [ABSTRACT FROM AUTHOR]

Published
2023
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25. 治疗性肿瘤疫苗:过去、现在和未来.

Author

魏建磊, 张 涛, and 张鹏霞

Abstract

Tumor is a neoplasm due to abnormal cell proliferation under various tumorigenic factors. According to its biological characteristics and the degree of harm to the body, it is generally divided into benign and malignant types. In China, malignant tumor is one of the main causes of patient deaths, and its morbidity and mortality are constantly rising, which has become a very serious public health problem. Tumor vaccine is an immune intervention strategy that uses tumor-specific antigens or tumor-associated antigens to stimulate specific immune response to kill tumor cells. It is one of the hot topics in tumor immunotherapy research. In the past few decades, with the continuous development of genetic technology, the development of tumor vaccines has made great progress. Tumor vaccines have shown great potentials in preclinical studies and related trials on solid tumors andare expected to further improve the overall survival of patients. Tumor vaccine can be divided into preventive and therapeutic types. According to the underlying mechanism, tumor vaccines can be divided into cell vaccines, protein/synthetic peptide vaccines, nucleic acid vaccines, etc. At present, immuno-checkpoint inhibitors, adoptive cell therapy and nanomaterial-based immunotherapy have shown good efficacy in the treatment of cancer, and the combination of tumor vaccines and other immunotherapies may become the future direction in the field of cancer therapy. However, the development of tumor vaccines has experienced many difficulties. It also has accumulated valuable clinical research and development experiences. In this review, we mainly discuss the origin, type, mechanism, advantages and limitations of different types of therapeutic tumor vaccines, in order to provide a reference for the research in the future. [ABSTRACT FROM AUTHOR]

Published
2023
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26. Tumor vaccines: Toward multidimensional anti-tumor therapies

Author

Yuanfang Tan, Huiyuan Chen, Xi Gou, Qiuying Fan, and Juanjuan Chen

Subjects
Tumor vaccines, anti-tumor therapy, immune system, cytotoxic T cells, immunosuppression, tumor angiogenesis, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950
Abstract

ABSTRACTFor decades, immunotherapies have offered hope for patients with advanced cancer. However, they show distinct benefits and limited clinical effects. Tumor vaccines have the potential to prime tumor-antigen-specific T cells and induce broad subsets of immune responses, ultimately eradicating tumor cells. Here, we classify tumor vaccines by their anti-tumor mechanisms, which include boosting the immune system, overcoming tumor immunosuppression, and modulating tumor angiogenesis. We focus on multidimensional tumor vaccine strategies using combinations of two or three of the above mechanisms, as these are superior to single-dimensional treatments. This review offers a perspective on tumor vaccine strategies and the future role of vaccine therapies in cancer treatment.

Published
2023
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27. Research Progress in Immunotherapy of Gliomas.

Author

Zhi-hong Duan and Zi-long Wei

Subjects
*GLIOMAS, *IMMUNE checkpoint inhibitors, *NEOVASCULARIZATION inhibitors, *CANCER vaccines, *TUMOR treatment, *VIRAL encephalitis, CENTRAL nervous system tumors
Abstract

Although some progress has been made in tumor treatment, gliomas remain one of the tumors that can still seriously threaten human life and health. Due to the particularity of the immune microenvironment of the central nervous system and the strong invasiveness of tumors, the treatment of gliomas remains a major challenge. Currently, researchers have explored a large number of immunotherapy programs to improve the survival and prognosis of glioma patients, including tumor vaccines, immune checkpoint inhibitors, adoptive cell transfer therapy, viral vector therapy, and genetic engineering therapy. The goal of these programs is to activate or change the immunosuppressive environment and target tumor cells through drugs, combined with surgical resection, radiotherapy, chemotherapy, and anti-angiogenesis drugs, to achieve the purpose of treating glioma. This review briefly describes the immunosuppressive microenvironment of gliomas and summarizes recent immunotherapeutic strategies and their progress. The aim is to summarize the latest immunotherapies for the treatment of gliomas and provide new research directions. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Nanotechnology-Assisted Immunogenic Cell Death for Effective Cancer Immunotherapy.

Author

Guo, Yichen, Ma, Rong, Zhang, Mengzhe, Cao, Yongjian, Zhang, Zhenzhong, and Yang, Weijing

Subjects
CELL death, CANCER vaccines, ANTIGEN presentation, IMMUNE response, IMMUNOTHERAPY
Abstract

Tumor vaccines have been used to treat cancer. How to efficiently induce tumor-associated antigens (TAAs) secretion with host immune system activation is a key issue in achieving high antitumor immunity. Immunogenic cell death (ICD) is a process in which tumor cells upon an external stimulus change from non-immunogenic to immunogenic, leading to enhanced antitumor immune responses. The immune properties of ICD are damage-associated molecular patterns and TAA secretion, which can further promote dendritic cell maturation and antigen presentation to T cells for adaptive immune response provocation. In this review, we mainly summarize the latest studies focusing on nanotechnology-mediated ICD for effective cancer immunotherapy as well as point out the challenges. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Immunotherapy in Head and Neck Cancer: Where Do We Stand?

Author

Vallianou, Natalia G., Evangelopoulos, Angelos, Kounatidis, Dimitris, Panagopoulos, Fotis, Geladari, Eleni, Karampela, Irene, Stratigou, Theodora, and Dalamaga, Maria

Abstract

Purposeof Review: Head and neck cancer (HNC) comprises a group of malignancies, amongst which squamous cell carcinoma accounts for more than 90% of the cases. HNC has been related to tobacco use, alcohol consumption, human papillomavirus, Epstein-Barr virus, air pollution, and previous local radiotherapy. HNC has been associated with substantial morbidity and mortality. This review aims to summarize the recent findings regarding immunotherapy in HNC. Recent Findings: The recent introduction of immunotherapy, with the use of programmed death 1 (PD-1) inhibitors pembrolizumab and nivolumab, which have been FDA approved for the treatment of metastatic or recurrent head and neck squamous cell carcinoma, has changed the field in metastatic or recurrent disease. There are many ongoing trials regarding the use of novel immunotherapeutic agents, such as durvalumab, atezolizumab, avelumab, tremelimumab, and monalizumab. Summary: In this review, we focus on the therapeutic potential of novel immunotherapy treatment modalities, such as combinations of newer immune-checkpoint inhibitors; the use of tumor vaccines such as human papillomavirus-targeted vaccines; the potential use of oncolytic viruses; as well as the latest advances regarding adoptive cellular immunotherapy. As novel treatment options are still emerging, a more personalized approach to metastatic or recurrent HNC therapy should be followed. Moreover, the role of the microbiome in immunotherapy, the limitations of immunotherapy, and the various diagnostic, prognostic, and predictive biomarkers based on genetics and the tumor microenvironment are synopsized. [ABSTRACT FROM AUTHOR]

Published
2023
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30. Nanovaccine-based strategies for lymph node targeted delivery and imaging in tumor immunotherapy.

Author

He, Ao, Li, Xiaoye, Dai, Zhuo, Li, Qiang, Zhang, Yu, Ding, Meng, Wen, Zhi-fa, Mou, Yongbin, and Dong, Heng

Subjects
LYMPH nodes, CANCER vaccines, IMMUNOLOGIC memory, NANOMEDICINE, IMMUNOTHERAPY, TUMORS
Abstract

Therapeutic tumor vaccines have attracted considerable attention in the past decade; they can induce tumor regression, eradicate minimal residual disease, establish lasting immune memory and avoid non-specific and adverse side effects. However, the challenge in the field of therapeutic tumor vaccines is ensuring the delivery of immune components to the lymph nodes (LNs) to activate immune cells. The clinical response rate of traditional therapeutic tumor vaccines falls short of expectations due to inadequate lymph node delivery. With the rapid development of nanotechnology, a large number of nanoplatform-based LN-targeting nanovaccines have been exploited for optimizing tumor immunotherapies. In addition, some nanovaccines possess non-invasive visualization performance, which is benefit for understanding the kinetics of nanovaccine exposure in LNs. Herein, we present the parameters of nanoplatforms, such as size, surface modification, shape, and deformability, which affect the LN-targeting functions of nanovaccines. The recent advances in nanoplatforms with different components promoting LN-targeting are also summarized. Furthermore, emerging LNs-targeting nanoplatform-mediated imaging strategies to both improve targeting performance and enhance the quality of LN imaging are discussed. Finally, we summarize the prospects and challenges of nanoplatform-based LN-targeting and /or imaging strategies, which optimize the clinical efficacy of nanovaccines in tumor immunotherapies. [ABSTRACT FROM AUTHOR]

Published
2023
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31. 革兰氏阴性菌外膜囊泡在抗肿瘤治疗中的研究进展.

Author

李一帆, 王丹, 王瑞琳, 费冰, 刘莹, 任彦颖, 郭梦雨, 刘心伟, and 李永伟

Subjects
EXTRACELLULAR vesicles, CANCER vaccines, IMMUNOLOGICAL adjuvants, BACTERIAL cell walls, GRAM-negative bacteria
Abstract

Copyright of Journal of Modern Laboratory Medicine is the property of Journal of Modern Laboratory Medicine Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023
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32. 黑色素瘤免疫治疗现状及研究进展.

Author

方翠华, 潘茂华, 周隆参, 覃宇城, 黄亚铭, 马佳, 陈熙, and 杨照青

Abstract

Melanoma is a highly lethal skin malignant tumor. Although years of clinical studies have proved that there are various methods for its treatment, such as surgery, chemotherapy, radiotherap, targeted therapy, etc., due to its low sensitivity, strong toxic and side effects, and poor efficacy, in view of the wide application of immunotherapy in the treatment of tumor diseases, the author reviewed the progress of immunotherapy of melanoma in recent years. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Potential Promises and Perils of Human Biological Treatments for Immunotherapy in Veterinary Oncology.

Author

Hambly, Jeilene N., Ruby, Carl E., Mourich, Dan V., Bracha, Shay, and Dolan, Brian P.

Subjects
BIOLOGICAL reagents, BIOMOLECULES, TUMOR antigens, CANCER vaccines, ANIMAL species, NANOMEDICINE, MONOCLONAL antibodies, CYTOTOXIC T cells
Abstract

Simple Summary: Immunotherapy for the treatment of cancer seeks to use the body's own immune system to recognize and eliminate tumor cells. Some of the most successful immunotherapies in human medicine have relied on the generation of biological reagents specific to humans, such as tumor antigen vaccines and humanized monoclonal antibodies. Veterinarians would like to incorporate immunotherapies into oncogenic medicine; however, the readily available reagents are biological therapies designed for human use, and their utility in veterinary medicine remains unknown. In some instances, such as tumor antigen vaccination, humanized reagents may prove advantageous in animal species. In other instances, such as the use of humanized monoclonal antibodies, the treatment may fail as a result of the animal's own immune system rejecting the human reagent. Here, we review the potential use of these reagents for veterinary oncology and explore other possible reagents that may have "universal" applicability in different animal species. The emergence of immunotherapy for the treatment of human cancers has heralded a new era in oncology, one that is making its way into the veterinary clinic. As the immune system of many animal species commonly seen by veterinarians is similar to humans, there is great hope for the translation of human therapies into veterinary oncology. The simplest approach for veterinarians would be to adopt existing reagents that have been developed for human medicine, due to the potential of reduced cost and the time it takes to develop a new drug. However, this strategy may not always prove to be effective and safe with regard to certain drug platforms. Here, we review current therapeutic strategies that could exploit human reagents in veterinary medicine and also those therapies which may prove detrimental when human-specific biological molecules are used in veterinary oncology. In keeping with a One Health framework, we also discuss the potential use of single-domain antibodies (sdAbs) derived from camelid species (also known as Nanobodies™) for therapies targeting multiple veterinary animal patients without the need for species-specific reformulation. Such reagents would not only benefit the health of our veterinary species but could also guide human medicine by studying the effects of outbred animals that develop spontaneous tumors, a more relevant model of human diseases compared to traditional laboratory rodent models. [ABSTRACT FROM AUTHOR]

Published
2023
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34. Advancing tumor vaccines: Overcoming TME challenges, delivery strategies, and biomaterial-based vaccine for enhanced immunotherapy.

Author

Zeng, Qingsong, Zhang, Shibo, Leng, Ning, and Xing, Yingying

Subjects
*CANCER vaccines, *VACCINE effectiveness, *TUMOR microenvironment, *VACCINE development, *MEDICAL research
Abstract

Tumor vaccines, as an immunotherapeutic approach, harness the body's immune cells to provoke antitumor responses, which have shown promising efficacy in clinical settings. However, the immunosuppressive tumor microenvironment (TME) and the ineffective vaccine delivery systems hinder the progression of many vaccines beyond phase II trials. This article begins with a comprehensive review of the complex interactions between tumor vaccines and TME, summarizing the current state of vaccine clinical research. Subsequently, we review recent advancements in targeted vaccine delivery systems and explore biomaterial-based tumor vaccines as a strategy to improve the efficacy of both delivery systems and treatment. Finally, we have presented our perspectives on tumor vaccine development, aiming to advance the field towards the creation of more effective tumor vaccines. [Display omitted] • Tumor vaccines represent a promising new frontier in cancer immunotherapy. • Vaccine delivery systems enhance the immunogenic effectiveness of vaccines. • Biomaterial-based vaccines contribute to the enhancement of therapeutic efficacy. [ABSTRACT FROM AUTHOR]

Published
2025
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35. CD24+ MDSC-DCs Induced by CCL5-Deficiency Showed Improved Antitumor Activity as Tumor Vaccines

Author

Lei Huang, Zequn Ding, and Yan Zhang

Subjects
cd24+ mdsc-dcs, ccl5-deficiency, tumor vaccines, antitumor activity, tregs, Genetics, QH426-470, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Background Dendritic cell (DC) tumor vaccine has been extensively utilized in preclinical and clinical studies; however, this technique has encountered many difficulties, particularly in late-stage tumor patients. For those, ex vivo-induced DCs are actuallymyeloid-derived suppressive cells-derived DCs (MDSC-DCs). MDSCs with immunosuppressive activity, but not monocytes, became the major DC precursor. Thus, how to enhance antitumor activity of MDSC-DCs is urgent need to address. Methods We utilized 4T1 and MC38 tumor-bearing both wildtype and CC chemokine ligand 5−/− (CCL5−/−) mice as animal models. MDSC-DCs were induced from splenocytes of these mice by granulocyte macrophage–colony stimulating factor/interleukin-4 with or without all-trans-retinoic acid (ATRA) in vitro for 7 days, then incubated with tumor-cell-lysis to treat mouse models for total three doses. For human MDSC-DCs, peripheral bloods from colorectal cancer patients were induced in vitro as murine cells with or without T- lymphocytes depletion to get rid of CCL5. Results Flow cytometry analysis showed that MDSCs from CCL5 −/− mice could be induced into a new type of CD24+ MDSC-DCs in the presence of ATRA, which had more antitumor activity than control. Antibody blocking and adoptive transfer experiments demonstrated that downregulation of regulatory T cells (Tregs) mediated the inhibition of CD24+ MDSC-DCs on tumor growth. Mechanically, CD24+ MDSC-DCs inhibited Tregs' polarization by secreting cytokine or coactivators' expression. What's important, decreasing CCL5 protein levels by T- lymphocytes depletion during both murine and human MDSC-DCs in vitro induction could also acquire CD24+ MDSC-DCs. Conclusion Knockdown of CCL5 protein during MDSC-DCs culture might provide a promising method to acquire DC-based tumor vaccines with high antitumor activity.

Published
2022
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36. Incorporation of a TGF-β2-inhibiting oligodeoxynucleotide molecular adjuvant into a tumor cell lysate vaccine to enhance antiglioma immunity in mice.

Author

Liqun Tu, Zhe Wang, Lei Yang, Xiaomeng Sun, Yunpeng Yao, Peng Zhang, Xiaotian Zhang, Liying Wang, Yongli Yu, and Ming Yang

Subjects
TRANSFORMING growth factors, KILLER cells, IMMUNITY, B cells, BRAIN tumors, T cells
Abstract

Introduction: Transforming growth factor β2 (TGF-β2), also known as glioma-derived T-cell suppressor factor, is associated with the impairment of tumor immune surveillance. Therefore, blocking TGF-β2 signaling probably be a feasible strategy to develop a novel type of adjuvant for glioma vaccines to enhance antitumor immunity. Methods: A TGF-β2 inhibitory oligodeoxynucleotide, TIO3, was designed with sequences complementary to the 3' untranslated region of TGF-β2 mRNA. The expression of TGF-β2 and MHC-I was detected by qPCR, western and flow cytometry in vitro. All the percentage and activation of immune cells were detected by flow cytometry. Subsequently, TIO3 was formulated with Glioma cell lysate (TCL) and investigated for its antitumor effects in GL261 murine glioma prophylactic and therapeutic models. Results: TIO3 could efficiently downregulate the expression of TGF-β2 while increase the MHC-I's expression in GL261 and U251 glioma cells in vitro. Meanwhile, TIO3 was detected in mice CD4+ T, CD8+ T, B and Ly6G+ cells from lymph nodes after 24 hours incubation. Moreover, TCL+TIO3 vaccination significantly prolonged the survival of primary glioma-bearing mice and protected these mice from glioma re-challenge in vivo. Mechanistically, TCL+TIO3 formulation strongly evoke the antitumor immune responses. 1) TCL+TIO3 significantly increased the composition of CD4+ and CD8+ T cells from draining lymph nodes while promoted their IFN-g production and reduced the expression of TGF-β2 and PD1. 2) TCL+TIO3 activated the NK cells with the elevation of CD69 or NKG2D expression and PD1 reduction. 3) TCL+TIO3 increased the gliomaspecific lysis CTLs from spleen. 4) TCL+TIO3 downregulated PD-L1 expression in glioma tissues and in Ly6G+ cells among glioma-infiltrating immune cells. Conclusion: TIO3 is a promising adjuvant for enhancing TCL-based vaccines to produce a more vigorous and long-lasting antitumor response by interfering with TGF-β2 expression. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Current Status of Research on Small Extracellular Vesicles for the Diagnosis and Treatment of Urological Tumors.

Author

Zhang, Mengting, Lu, Yukang, Wang, Lanfeng, Mao, Yiping, Hu, Xinyi, and Chen, Zhiping

Subjects
*CANCER diagnosis, *CANCER treatment, *URINARY organs, *PATHOLOGIC neovascularization, *EXTRACELLULAR vesicles
Abstract

Simple Summary: Small extracellular vesicles (sEVs) play an important role in the occurrence and development of various diseases, exhibiting the characteristics of wide acquisition and strong specificity. Due to the difficulties in the diagnosis and treatment of urological tumors, this article mainly reviews the function of sEVs in urinary tumors and their related application in the diagnosis and treatment of such tumors. The contents herein can provide new directions for the early diagnosis and individualized treatment of urinary tumors. Extracellular vesicles (EVs) are important mediators of communication between tumor cells and normal cells. These vesicles are rich in a variety of contents such as RNA, DNA, and proteins, and can be involved in angiogenesis, epithelial-mesenchymal transition, the formation of pre-metastatic ecological niches, and the regulation of the tumor microenvironment. Small extracellular vesicles (sEVs) are a type of EVs. Currently, the main treatments for urological tumors are surgery, radiotherapy, and targeted therapy. However, urological tumors are difficult to diagnose and treat due to their high metastatic rate, tendency to develop drug resistance, and the low sensitivity of liquid biopsies. Numerous studies have shown that sEVs offer novel therapeutic options for tumor treatment, such as tumor vaccines and tumor drug carriers. sEVs have attracted a great deal of attention owing to their contribution to in intercellular communication, and as novel biomarkers, and role in the treatment of urological tumors. This article reviews the research and applications of sEVs in the diagnosis and treatment of urological tumors. [ABSTRACT FROM AUTHOR]

Published
2023
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38. Whole-Component Antigen Nanovaccines Combined With aTIGIT for Enhanced Innate and Adaptive Anti-tumor Immunity.

Author

Wang W, Wu H, Zhang X, Hong Y, Tao S, Cao X, Wang S, Zha L, and Zha Z

Abstract

Using entire tumor cells or tissues that display both common and patient-specific antigens can potentially trigger a comprehensive and long-lasting anti-tumor immune response. However, the limited immunogenicity, low uptake efficiency, and susceptibility to degradation of whole-component antigens present significant challenges. In this study, we employed tumor lysates (TLs) as whole-component antigens, in conjunction with MgAl-layered double hydroxide (MA) as nanoadjuvants and Mn 2+ as immunostimulants, to create personalized MMAT (Mn 2+ -MA-TLs) nanovaccines. After subcutaneous injection of MMAT nanovaccines, the high local concentrations of TLs and Mn 2+ facilitated the recruitment and activation of antigen-presenting cells (APCs), thereby inducing a robust adaptive immune response. Remarkably, MMAT nanovaccines enabled lysosomal escape, enhanced antigen cross-presentation, and activated the cyclic GMP-AMP synthase (cGAS)-stimulator of interferon genes (STING) pathway in APCs. Furthermore, MMAT nanovaccines, when combined with the anti-TIGIT monoclonal antibody (aTIGIT), an immune checkpoint inhibitor, not only stimulated T-cell-based adaptive anti-tumor immune responses but also activated the NK-cell-based innate anti-tumor immunity, effectively suppressing tumor growth, recurrence, and metastasis. Thus, the ternary MMAT nanovaccines developed here introduced a pioneered paradigm for the rapid preparation of whole-component tumor antigens with nanoadjuvants and immunostimulants into nanovaccines, offering new prospects for clinical immunotherapies., (© 2025 Wiley‐VCH GmbH.)

Published
2025
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39. Extracellular Vesicle-Based Antitumor Nanomedicines.

Author

Li M, Liu Y, Liu F, Chen Q, Xu L, Cheng Z, Tan Y, and Liu Z

Abstract

Extracellular vesicles (EVs) have emerged as promising bioactive carriers for delivering therapeutic agents, including nucleic acids, proteins, and small-molecule drugs, owing to their excellent physicochemical stability and biocompatibility. However, comprehensive reviews on the various types of EV-based nanomedicines for cancer therapy remain scarce. This review explores the potential of EVs as antitumor nanomedicines. Methods for EV extraction, drug loading, and engineering modifications are systematically examined, and the strengths and limitations of these technical approaches are critically assessed. Additionally, key strategies for developing EV-based antitumor therapies are highlighted. Finally, the opportunities and challenges associated with advancing EVs toward clinical translation are discussed. With the integration of multiple disciplines, robust EV-based therapeutic platforms are expected to be manufactured to provide more personalized and effective solutions for oncology patients., (© 2025 Wiley‐VCH GmbH.)

Published
2025
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40. Highly triple-effective synergy based on tetrahedral DNA nanostructure-induced tumor vaccines for cancer therapy

Author

Jianqin Yan, Hongli Yu, Xiaowen Tang, Fashun Li, Zhipeng Li, Yan Liang, Bin He, Xianwen Wang, and Yong Sun

Subjects
Tumor vaccines, Immunogenic cell death, Photodynamic therapy, Immunotherapy, Photochemical internalization, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Chemotherapy (CT) can convert tumor cells into “tumor vaccines” through immunogenic cell death (ICD). However, the antitumor immunity elicited by CT-induced tumor vaccines is weak. Therefore, developing efficient CT-induced tumor vaccines is a challenge. Herein, we report a novel strategy to induce CT with a strong immunogenic effect. Targeted tetrahedral DNA nanostructures modified by AS1411 and immune adjuvant CpG (abbreviation: ACT) were used to achieve a multi-drug co-loading system of DOX and methylene blue (MB, photosensitizer for photodynamic therapy), ACT-loaded DOX and MB (ACT@DM), for multi-mode and combined chemo-photo-immune therapy. ACT@DM effectively generated reactive oxygen species and promoted cellular uptake through photochemical internalization, showing an excellent antitumor effect. Furthermore, ACT@DM induced a significant ICD effect under light irradiation, activated immune cells, and promoted the maturation of dendritic cells and secretion of related cytokines, thereby resulting in the activation and infiltration of T lymphocytes. The combination of CT-photo-immune therapy significantly enhanced the proportions of cytotoxic T cells (CD8+ CTL) and CD8+ CTL/regulatory T cells, indicating effective activation of T cells and improvement of immunosuppression, which cooperatively inhibited tumor growth. This study provides a simple but effective strategy for exploring antitumor immunotherapy, achieving high-efficiency T cell activation, and multimodal combination therapy.

Published
2023
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42. Nanchang University Researchers Highlight Research in Tumor Vaccines (A new weapon: the application of tumor vaccines based on extracellular exosomal heat shock proteins in immunotherapy).

Subjects
HEAT shock proteins, CANCER vaccines, BIOLOGICAL products, MOLECULAR chaperones, EXTRACELLULAR space
Abstract

Researchers at Nanchang University in China have highlighted the potential of tumor vaccines based on extracellular exosomal heat shock proteins in cancer immunotherapy. These vaccines aim to activate immune responses by harnessing specific tumor antigens, utilizing exosomes to transport molecules and stimulate the immune system. The study emphasizes the advantages of this approach in preventing and treating solid tumors, suggesting promising future directions for heat shock protein-based cancer immunotherapy strategies. For more information, readers can access the full article in Frontiers in Immunology. [Extracted from the article]

Published
2025

43. Data from Xuzhou Medical University Provide New Insights into Tumor Vaccines (Targeting Siglec-E facilitates tumor vaccine-induced antitumor immunity in renal carcinoma).

Subjects
CYTOTOXIC T cells, IMMUNE checkpoint proteins, BIOLOGICAL products, CANCER vaccines, CANCER cell proliferation
Abstract

A recent study conducted at Xuzhou Medical University in China explored the use of an adenovirus vaccine targeting Siglec-E and carbonic anhydrase IX (CAIX) in preclinical renal cancer models. The research found that the Ad-Siglec-E/CAIX vaccine increased tumor-infiltrated immune cells and suppressed subcutaneous tumor growth in renal carcinoma. The study concluded that targeting Siglec-E enhances the therapeutic efficacy of Ad-CAIX against renal carcinoma, offering a promising treatment option for solid tumors. [Extracted from the article]

Published
2025

44. Investigators at Jilin Normal University Describe Findings in Tumor Vaccines (Configuration-mediated Efficient Non-radiative Transition for R848-assisted Photothermal Immunotherapy To Inhibit Tumor Growth and Metastasis By an in Situ...).

Subjects
CANCER vaccines, BIOLOGICAL products, RADIATIONLESS transitions, IMMUNOLOGIC memory, MOLECULAR shapes
Abstract

Researchers at Jilin Normal University in Siping, People's Republic of China, have conducted a study on tumor vaccines and photothermal immunotherapy to inhibit tumor growth and metastasis. The study focused on the synthesis of two isomers, CZTBT and LVTBT, with different molecular configurations, and found that LVTBT@R848 nanoparticles combined with R848 promoted a strong immune response, inhibiting tumor growth and metastasis. The research highlights the importance of molecular configuration in enhancing photothermal conversion efficiency and advancing organic photothermal agents design. This study was funded by various organizations and has been peer-reviewed. [Extracted from the article]

Published
2025

45. Natural blood plasma-based hydrogels as tumor vaccines delivery systems to enhance biomimetic recruitment of antigen presenting cells for tumor immunotherapy

Author

Linghong Huang, Sufen Peng, Zonghua Liu, Juncheng Zhang, Ning Liu, and Jiansheng Lin

Subjects
Tumor immunotherapy, Tumor vaccines, Blood plasma hydrogel, APCs recruitment, Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

Tumor vaccines can inhibit or eliminate tumors by vaccinating hosts with tumor antigens to activate antigen-specific immune responses and have gained wild attention. However, their clinical application efficacy is often comprised due to the low safety and poor efficiency of vaccine adjuvants/carriers. Specifically, the adjuvants/carriers usually could not efficiently recruit antigen presenting cells (APCs) to capture the vaccines or directly damage these cells. Therefore, ideal tumor vaccine adjuvants/carriers should effectively recruit APCs and be friendly to the cells for well keeping their bio-functions. In this work, injectable natural blood plasma hydrogel was used for the first time to encapsulate tumor antigens and adjuvant (Mn2+) for the construction of a personalized tumor vaccine. This kind of natural hydrogel with extremely high bio-safety has great potential to friendly recruit APCs in a biomimetic manner by simulating the natural degradation process of subcutaneous blood stasis. The obtained results show that the natural blood plasma hydrogel-based tumor vaccines could significantly promote the recruitment of APCs, well maintain the immuno-functions of the cells, and finally induce efficient anti-tumor immune responses. Compared with traditional tumor vaccines, this natural blood plasma-based hydrogel provides a new strategy for the development of safe and effective tumor vaccines.

Published
2022
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46. Extracellular vesicles derived from macrophages: Current applications and prospects in tumors

Author

Kecheng Lou, Shangzhi Feng, Hui Luo, Junrong Zou, Guoxi Zhang, and Xiaofeng Zou

Subjects
extracellular vesicles, macrophages, nanomedicine, engineered extracellular vesicles, tumor vaccines, Biotechnology, TP248.13-248.65
Abstract

Macrophages (Mφs) are significant innate immune cells that perform a variety of tasks in response to different pathogens or stimuli. They are widely engaged in the pathological processes of various diseases and can contribute to tumorigenesis, progression and metastasis by regulating the tumor microenvironment and cancer cells. They are also the basis of chemoresistance. In turn, the tumor microenvironment and the metabolism of cancer cells can limit the differentiation, polarization, mobilization and the ability of Mφs to initiate an effective anti-tumor response. Extracellular vesicles (EVs) are small vesicles released by live cells that serve as crucial mediators of intercellular cell communication as well as a potential promising drug carrier. A growing number of studies have demonstrated that Mφs-EVs are not only important mediators in the pathological processes of various diseases such as inflammatory disorders, fibrosis and cancer, but also show significant potential in immunological modulation, cancer therapy, infectious defense and tissue repair. These natural nanoparticles (NPs) derived from Mφs are believed to be pleiotropic, stable, biocompatible and low immunogenic, providing novel alternatives for cancer treatment. This review provides an update on the pathological and therapeutic roles of Mφs-EVs in cancer, as well as their potential clinical applications and prospects.

Published
2022
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47. Advances in technology and applications of nanoimmunotherapy for cancer

Author

Lei Dou, Xiangdan Meng, Huiyuan Yang, and Haifeng Dong

Subjects
Nanoparticles, Tumor immunotherapy, Tumor vaccines, Immunogenic cell death, Tumor immune microenvironment, Therapeutics. Pharmacology, RM1-950
Abstract

Abstract Host-tumor immune interactions play critical roles in the natural history of tumors, including oncogenesis, progress and metastasis. On the one hand, neoantigens have the potential to drive a tumor-specific immune response. In tumors, immunogenic cell death (ICD) triggered by various inducers can initiate a strong host anti-immune response. On the other hand, the tolerogenic tumor immune microenvironment suppresses host immune responses that eradicate tumor cells and impair the effect of tumor therapy. Therefore, a deeper understanding and more effective manipulation of the intricate host-tumor immune interaction involving the host, tumor cells and the corresponding tumor immune microenvironment are required. Despite the encouraging breakthroughs resulting from tumor immunotherapy, no single strategy has elicited sufficient or sustained antitumor immune responses in most patients with specific malignancies due to limited activation of specific antitumor immune responses and inadequate remodeling of the tolerogenic tumor immune microenvironment. However, nanotechnology provides a unique paradigm to simultaneously tackle all these challenges, including effective “targeted” delivery of tumor antigens, sustained ICD mediation, and “cold” tumor microenvironment remodeling. In this review, we focus on several key concepts in host-tumor immune interactions and discuss the corresponding therapeutic strategy based on the application of nanoparticles.

Published
2021
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48. Nanotechnology-Assisted Immunogenic Cell Death for Effective Cancer Immunotherapy

Author

Yichen Guo, Rong Ma, Mengzhe Zhang, Yongjian Cao, Zhenzhong Zhang, and Weijing Yang

Subjects
immunogenic cell death, nanotechnology, tumor vaccines, cancer immunotherapy, Medicine
Abstract

Tumor vaccines have been used to treat cancer. How to efficiently induce tumor-associated antigens (TAAs) secretion with host immune system activation is a key issue in achieving high antitumor immunity. Immunogenic cell death (ICD) is a process in which tumor cells upon an external stimulus change from non-immunogenic to immunogenic, leading to enhanced antitumor immune responses. The immune properties of ICD are damage-associated molecular patterns and TAA secretion, which can further promote dendritic cell maturation and antigen presentation to T cells for adaptive immune response provocation. In this review, we mainly summarize the latest studies focusing on nanotechnology-mediated ICD for effective cancer immunotherapy as well as point out the challenges.

Published
2023
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49. Bacterial outer membrane vesicles as a candidate tumor vaccine platform

Author

Shuming Wang, Jiayi Guo, Yang Bai, Cai Sun, Yanhao Wu, Zhe Liu, Xiaofei Liu, Yanfeng Wang, Zhigang Wang, Yongmin Zhang, and Huifang Hao

Subjects
gram negative bacteria, bacteria outer membrane vesicles, cancer, tumor vaccines, immunization, Immunologic diseases. Allergy, RC581-607
Abstract

Cancer represents a serious concern for human life and health. Due to drug resistance and the easy metastasis of tumors, there is urgent need to develop new cancer treatment methods beyond the traditional radiotherapy, chemotherapy, and surgery. Bacterial outer membrane vesicles (OMVs) are a type of double-membrane vesicle secreted by Gram-negative bacteria in the process of growth and life, and play extremely important roles in the survival and invasion of those bacteria. In particular, OMVs contain a large number of immunogenic components associated with their parent bacterium, which can be used as vaccines, adjuvants, and vectors to treat diseases, especially in presenting tumor antigens or targeted therapy with small-molecule drugs. Some OMV-based vaccines are already on the market and have demonstrated good therapeutic effect on the corresponding diseases. OMV-based vaccines for cancer are also being studied, and some are already in clinical trials. This paper reviews bacterial outer membrane vesicles, their interaction with host cells, and their applications in tumor vaccines.

Published
2022
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50. CD24+ MDSC-DCs Induced by CCL5-Deficiency Showed Improved Antitumor Activity as Tumor Vaccines.

Author

Lei Huang, Zequn Ding, and Yan Zhang

Subjects
CANCER vaccines, ANTINEOPLASTIC agents, REGULATORY T cells, MYELOID-derived suppressor cells, DENDRITIC cells
Abstract

Background Dendritic cell (DC) tumor vaccine has been extensively utilized in preclinical and clinical studies; however, this technique has encountered many difficulties, particularly in late-stage tumor patients. For those, ex vivo-induced DCs are actuallymyeloid-derived suppressive cells-derived DCs (MDSC-DCs). MDSCs with immunosuppressive activity, but not monocytes, became the major DC precursor. Thus, how to enhance antitumor activity of MDSC-DCs is urgent need to address. Methods We utilized 4T1 and MC38 tumor-bearing both wildtype and CC chemokine ligand 5-/- (CCL5-/-) mice as animal models. MDSC-DCs were induced from splenocytes of these mice by granulocytemacrophage–colony stimulating factor/interleukin- 4 with or without all-trans-retinoic acid (ATRA) in vitro for 7 days, then incubated with tumor-cell-lysis to treat mouse models for total three doses. For human MDSC-DCs, peripheral bloods from colorectal cancer patients were induced in vitro as murine cells with or without T- lymphocytes depletion to get rid of CCL5. Results Flow cytometry analysis showed that MDSCs from CCL5-/- mice could be induced into a new type of CD24þMDSC-DCs in the presence of ATRA,which hadmore antitumor activity than control. Antibody blocking and adoptive transfer experiments demonstrated that downregulation of regulatory T cells (Tregs) mediated the inhibition of CD24þ MDSC-DCs on tumor growth. Mechanically, CD24þ MDSC-DCs inhibited Tregs’ polarization by secreting cytokine or coactivators’ expression. What’s important, decreasing CCL5 protein levels by T- lymphocytes depletion during both murine and human MDSC-DCs in vitro induction could also acquire CD24þ MDSC-DCs. Conclusion Knockdown of CCL5 protein during MDSC-DCs culture might provide a promising method to acquire DC-based tumor vaccines with high antitumor activity. [ABSTRACT FROM AUTHOR]

Published
2022
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