Your search keyword '"Cancer vaccines"' showing total 35,749 results

151. An Overview of Nanoparticle-Based Delivery Platforms for mRNA Vaccines for Treating Cancer.

Author

Lin, Yang, Chen, Xuehua, Wang, Ke, Liang, Li, and Zhang, Hongxia

Subjects

VACCINE immunogenicity, MESSENGER RNA, VACCINE development, NUCLEIC acids, CANCER vaccines

Abstract

With its unique properties and potential applications, nanoparticle-based delivery platforms for messenger RNA (mRNA) vaccines have gained significant attention in recent years. Nanoparticles have the advantages of enhancing immunogenicity, targeting delivery, and improving stability, providing a new solution for drug and vaccine delivery. In some clinical studies, a variety of nanoparticle delivery platforms have been gradually applied to a wide range of vaccine applications. Current research priorities are exploring various types of nanoparticles as vaccine delivery systems to enhance vaccine stability and immunogenicity. Lipid nanoparticles (LNPs) have shown promising potential in preclinical and clinical studies on the efficient delivery of antigens to immune cells. Moreover, lipid nanoparticles and other nanoparticles for nucleic acids, especially for mRNA delivery systems, have shown vast potential for vaccine development. In this review, we present various vaccine platforms with an emphasis on nanoparticles as mRNA vaccine delivery vehicles. We describe several novel nanoparticle delivery platforms for mRNA vaccines, such as lipid-, polymer-, and protein-based nanoparticles. In addition, we provide an overview of the anti-tumor immunity of nanovaccines against different tumors in cancer immunotherapy. Finally, we outline future perspectives and remaining challenges for this promising technology of nanoparticle-based delivery platforms for vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

152. Development and Clinical Applications of Therapeutic Cancer Vaccines with Individualized and Shared Neoantigens.

Author

Hao, Qing, Long, Yuhang, Yang, Yi, Deng, Yiqi, Ding, Zhenyu, Yang, Li, Shu, Yang, and Xu, Heng

Subjects

CANCER vaccines, TUMOR antigens, VACCINE effectiveness, CLINICAL medicine, PEPTIDES

Abstract

Neoantigens, presented as peptides on the surfaces of cancer cells, have recently been proposed as optimal targets for immunotherapy in clinical practice. The promising outcomes of neoantigen-based cancer vaccines have inspired enthusiasm for their broader clinical applications. However, the individualized tumor-specific antigens (TSA) entail considerable costs and time due to the variable immunogenicity and response rates of these neoantigens-based vaccines, influenced by factors such as neoantigen response, vaccine types, and combination therapy. Given the crucial role of neoantigen efficacy, a number of bioinformatics algorithms and pipelines have been developed to improve the accuracy rate of prediction through considering a series of factors involving in HLA-peptide-TCR complex formation, including peptide presentation, HLA-peptide affinity, and TCR recognition. On the other hand, shared neoantigens, originating from driver mutations at hot mutation spots (e.g., KRASG12D), offer a promising and ideal target for the development of therapeutic cancer vaccines. A series of clinical practices have established the efficacy of these vaccines in patients with distinct HLA haplotypes. Moreover, increasing evidence demonstrated that a combination of tumor associated antigens (TAAs) and neoantigens can also improve the prognosis, thus expand the repertoire of shared neoantigens for cancer vaccines. In this review, we provide an overview of the complex process involved in identifying personalized neoantigens, their clinical applications, advances in vaccine technology, and explore the therapeutic potential of shared neoantigen strategies. [ABSTRACT FROM AUTHOR]

Published

2024

153. Novel Methodology for the Design of Personalized Cancer Vaccine Targeting Neoantigens: Application to Pancreatic Ductal Adenocarcinoma.

Author

Savsani, Kush and Dakshanamurthy, Sivanesan

Subjects

PEPTIDE vaccines, CANCER vaccines, PANCREATIC duct, RNA sequencing, GENETIC mutation

Abstract

Personalized cancer vaccines have emerged as a promising avenue for cancer treatment or prevention strategies. This approach targets the specific genetic alterations in individual patient's tumors, offering a more personalized and effective treatment option. Previous studies have shown that generalized peptide vaccines targeting a limited scope of gene mutations were ineffective, emphasizing the need for personalized approaches. While studies have explored personalized mRNA vaccines, personalized peptide vaccines have not yet been studied in this context. Pancreatic ductal adenocarcinoma (PDAC) remains challenging in oncology, necessitating innovative therapeutic strategies. In this study, we developed a personalized peptide vaccine design methodology, employing RNA sequencing (RNAseq) to identify prevalent gene mutations underlying PDAC development in a patient solid tumor tissue. We performed RNAseq analysis for trimming adapters, read alignment, and somatic variant calling. We also developed a Python program called SCGeneID, which validates the alignment of the RNAseq analysis. The Python program is freely available to download. Using chromosome number and locus data, SCGeneID identifies the target gene along the UCSC hg38 reference set. Based on the gene mutation data, we developed a personalized PDAC cancer vaccine that targeted 100 highly prevalent gene mutations in two patients. We predicted peptide-MHC binding affinity, immunogenicity, antigenicity, allergenicity, and toxicity for each epitope. Then, we selected the top 50 and 100 epitopes based on our previously published vaccine design methodology. Finally, we generated pMHC-TCR 3D molecular model complex structures, which are freely available to download. The designed personalized cancer vaccine contains epitopes commonly found in PDAC solid tumor tissue. Our personalized vaccine was composed of neoantigens, allowing for a more precise and targeted immune response against cancer cells. Additionally, we identified mutated genes, which were also found in the reference study, where we obtained the sequencing data, thus validating our vaccine design methodology. This is the first study designing a personalized peptide cancer vaccine targeting neoantigens using human patient data to identify gene mutations associated with the specific tumor of interest. [ABSTRACT FROM AUTHOR]

Published

2024

154. The World Health Organization Reviews Another Year of Global Health Progress and Some Setbacks.

Author

Binns, Colin and Low, Wah Yun

Subjects

STREPTOCOCCAL disease prevention, TUBERCULOSIS prevention, MALARIA prevention, SMOKING cessation, SEXUALLY transmitted diseases, GOVERNMENT policy, TOBACCO, CERVIX uteri tumors, INFANT mortality, LIFE expectancy, SMOKING, ELECTRONIC cigarettes, MENINGITIS, WHOOPING cough vaccines, BCG vaccines, CLIMATE change, CANCER vaccines, HUMAN papillomavirus vaccines, COVID-19 vaccines, RESPIRATORY syncytial virus infections, DENGUE, WORLD health, CHRONIC diseases, MESSENGER RNA, PUBLIC health, HEALTH education, COVID-19 pandemic, COVID-19

Published

2024

155. The role and application of small extracellular vesicles in glioma.

Author

Yang, Zhihao, Wu, HaoYuan, Wang, ZhiWei, Bian, ErBao, and Zhao, Bing

Subjects

*EXTRACELLULAR vesicles, *BIOMOLECULES, *GLIOMAS, *CANCER vaccines, *CANCER invasiveness

Abstract

Small extracellular vesicles (sEVs) are cell-derived, nanometer-sized particles enclosed by a lipid bilayer. All kinds of biological molecules, including proteins, DNA fragments, RNA, lipids, and metabolites, can be selectively loaded into sEVs and transmitted to recipient cells that are near and distant. Growing shreds of evidence show the significant biological function and the clinical significance of sEVs in cancers. Numerous recent studies have validated that sEVs play an important role in tumor progression and can be utilized to diagnose, stage, grading, and monitor early tumors. In addition, sEVs have also served as drug delivery nanocarriers and cancer vaccines. Although it is still infancy, the field of basic and translational research based on sEVs has grown rapidly. In this review, we summarize the latest research on sEVs in gliomas, including their role in the malignant biological function of gliomas, and the potential of sEVs in non-invasive diagnostic and therapeutic approaches, i.e., as nanocarriers for drug or gene delivery and cancer vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

156. Initial Evidence of a Possible Effect of HPV Vaccination on Cancer Incidence in Germany.

Author

Grieger, P., Eisemann, N., Hammersen, F, Rudolph, C., Katalinic, A., and Waldmann, A.

Subjects

SEXUALLY transmitted diseases, HUMAN papillomavirus, HUMAN papillomavirus vaccines, CERVICAL cancer diagnosis, CANCER vaccines, GENITAL warts

Abstract

Background: Infection with human papillomavirus (HPV) is one of the more common sexually transmitted diseases in Germany. Vaccination against HPV was introduced in Germany in 2007. In this study, we sought to detect a population-based decline in the incidence of cervical cancer in women under age 30 who were eligible for vaccination in the first 11 years after its introduction. Methods: Data on new diagnoses of HPV-associated cervical cancer from 2004 to 2018 were obtained from the cancer registries of the German federal states (Bundesländer) through the German Center for Cancer Registry Data (ZfKD). Trends in the incidence of invasive and in situ cervical cancer were determined with log-linear joinpoint regression and age--period--cohort models. Results: The incidence of cervical cancer, which had been rising in the previous decades, has been falling since 2010, with a marked decline among women in all age groups eligible for vaccination (e.g., from 70.0 to 41.8 cases per 100 000 persons per year from 2010 to 2018 in women aged 24 to 26). Women born in 1992 were the first to become eligible for vaccination and have a 24% lower incidence than the reference cohort of women born in 1989 (relative risk 0.76, 95% confidence interval [0.68; 0.86]). Larger effects were found in later birth cohorts, in which vaccination was more widespread. Conclusion: Eleven years after the introduction of HPV vaccination, a drop in the incidence of cervical cancer was observable at the population level in the birth cohorts eligible for vaccination. [ABSTRACT FROM AUTHOR]

Published

2024

157. Boosting Antitumor Immunity via a Tumor Microenvironment‐Responsive Transformable Trifecta Nanovaccine.

Author

Li, Qiang, Dang, Meng, Tao, Jun, Li, Xiaoye, Xiu, Weijun, Dai, Zhuo, He, Ao, Ding, Meng, Zhang, Yu, Wen, Zhi‐fa, Su, Xiaodan, Elbourne, Aaron James, Bao, Lei, Chen, Lin, Mou, Yongbin, Teng, Zhaogang, and Dong, Heng

Subjects

*IMMUNITY, *CANCER vaccines, *GENETIC regulation, *DENDRITIC cells, *CELL death, *BOOSTING algorithms

Abstract

In situ tumor vaccines (ISTVs) hold great potential in tumor immunotherapy, however, three major obstacles, including inadequate endogenous antigen uptake by dendritic cells (DCs), weak T‐cell immune responses, and stubborn immunosuppressive tumor microenvironment (TME), still need to be fully addressed. Herein, a trifecta nanovaccine (TriNV) with TME‐responsive transformable ability is developed to tri‐boost antitumor immunity. First, sufficient endogenous tumor‐associated antigens (TAAs) are liberated in situ after immunogenic cell death is induced via TriNV‐based photoimmunotherapy. In the TME, soft‐transformed TriNV improves the uptake of TAAs by DCs to enhance acquired immunity. Second, the self‐adjuvating TriNV and the TME‐responsive released Mn2+ synergistically promote DC maturation and macrophage M1 polarization by augmenting the stimulator of interferon genes activation to further amplify T‐cell immune responses. Moreover, the decomposition of MnO2 within the core of TriNV exhausts glutathione and facilitates O2 release to alleviate hypoxia in the TME, thereby overcoming the chemical obstacles of the TME to further mitigate immunosuppression. Thus, TriNV remarkably eradicates primary tumors and inhibits distant metastasis, thus demonstrating great potential as a feasible and effective ISTV nanoplatform for combating poorly immunogenic solid tumors. [ABSTRACT FROM AUTHOR]

Published

2024

158. Empowering standardization of cancer vaccines through ontology: enhanced modeling and data analysis.

Author

Zheng, Jie, Li, Xingxian, Masci, Anna Maria, Kahn, Hayleigh, Huffman, Anthony, Asfaw, Eliyas, Pan, Yuanyi, Guo, Jinjing, He, Virginia, Song, Justin, Seleznev, Andrey I., Lin, Asiyah Yu, and He, Yongqun

Subjects

*CANCER vaccines, *DESCRIPTION logics, *DATA analysis, *DATA modeling, *ONTOLOGY

Abstract

Background: The exploration of cancer vaccines has yielded a multitude of studies, resulting in a diverse collection of information. The heterogeneity of cancer vaccine data significantly impedes effective integration and analysis. While CanVaxKB serves as a pioneering database for over 670 manually annotated cancer vaccines, it is important to distinguish that a database, on its own, does not offer the structured relationships and standardized definitions found in an ontology. Recognizing this, we expanded the Vaccine Ontology (VO) to include those cancer vaccines present in CanVaxKB that were not initially covered, enhancing VO's capacity to systematically define and interrelate cancer vaccines. Results: An ontology design pattern (ODP) was first developed and applied to semantically represent various cancer vaccines, capturing their associated entities and relations. By applying the ODP, we generated a cancer vaccine template in a tabular format and converted it into the RDF/OWL format for generation of cancer vaccine terms in the VO. '12MP vaccine' was used as an example of cancer vaccines to demonstrate the application of the ODP. VO also reuses reference ontology terms to represent entities such as cancer diseases and vaccine hosts. Description Logic (DL) and SPARQL query scripts were developed and used to query for cancer vaccines based on different vaccine's features and to demonstrate the versatility of the VO representation. Additionally, ontological modeling was applied to illustrate cancer vaccine related concepts and studies for in-depth cancer vaccine analysis. A cancer vaccine-specific VO view, referred to as "CVO," was generated, and it contains 928 classes including 704 cancer vaccines. The CVO OWL file is publicly available on: http://purl.obolibrary.org/obo/vo/cvo.owl, for sharing and applications. Conclusion: To facilitate the standardization, integration, and analysis of cancer vaccine data, we expanded the Vaccine Ontology (VO) to systematically model and represent cancer vaccines. We also developed a pipeline to automate the inclusion of cancer vaccines and associated terms in the VO. This not only enriches the data's standardization and integration, but also leverages ontological modeling to deepen the analysis of cancer vaccine information, maximizing benefits for researchers and clinicians. Availability: The VO-cancer GitHub website is: https://github.com/vaccineontology/VO/tree/master/CVO. [ABSTRACT FROM AUTHOR]

Published

2024

159. A designathon to co-create HPV screening and vaccination approaches for mothers and daughters in Nigeria: findings from a community-led participatory event.

Author

Kpokiri, Eneyi E, Wapmuk, Agatha E, Obiezu-Umeh, Chisom, Nwaozuru, Ucheoma, Gbaja-Biamila, Titilola, Obionu, Ifeoma, Kokelu, Ekenechukwu, Smith, Jennifer, Azuogu, Benedict N, Ajenifuja, Kayode, Babatunde, Abdulhammed O, Ezechi, Oliver, Tucker, Joseph D, and Iwelunmor, Juliet

Subjects

*HUMAN papillomavirus vaccines, *HUMAN papillomavirus, *BASIC training (Military education), *CANCER vaccines, *INSTANT messaging

Abstract

Background: Oncogenic types of human Papillomavirus (HPV) infection cause substantial morbidity and mortality in Nigeria. Nigeria has low cervical cancer screening and vaccination rates, suggesting the need for community engagement to enhance reach and uptake. We organised a designathon to identify community-led, innovative approaches to promote HPV screening and vaccination for women and girls, respectively, in Nigeria. A designathon is a three-phase participatory process informed by design thinking that includes the preparation phase that includes soliciting innovative ideas from end-users, an intensive collaborative event to co-create intervention components, and follow-up activities. Methods: We organised a three-phase designathon for women (30-65yrs) and girls (11-26yrs) in Nigeria. First, we launched a national crowdsourcing open call for ideas on community-driven strategies to support HPV screening among women and vaccination among girls. The open call was promoted widely on social media and at in-person gatherings. All eligible entries were graded by judges and 16 exceptional teams (with 4-6members each). All six geo-political zones of Nigeria were invited to join an in-person event held over three days in Lagos to refine their ideas and present them to a panel of expert judges. The ideas from teams were reviewed and scored based on relevance, feasibility, innovation, potential impact, and mother-daughter team dynamics. We present quantitative data on people who submitted and themes from the textual submissions. Results: We received a total of 612 submissions to the open call from mother-daughter dyads. Participants submitted ideas via a website designated for the contest (n = 392), in-person (n = 99), email (n = 31), or via an instant messaging application (n = 92). Overall, 470 were eligible for judging after initial screening. The average age of participants for daughters was 19 years and 39 years for mothers. Themes from the top 16 proposals included leveraging local leaders (5/16), faith-based networks (4/16), educational systems (4/16), and other community networks (7/16) to promote awareness of cervical cancer prevention services. After an in-person collaborative event, eight teams were selected to join an innovation training boot camp, for capacity building to implement ideas. Conclusions: Innovative strategies are needed to promote HPV screening for mothers and vaccination for girls in Nigeria. Our designathon was able to facilitate Nigerian mother-daughter teams to develop cervical cancer prevention strategies. Implementation research is needed to assess the effectiveness of these strategies. [ABSTRACT FROM AUTHOR]

Published

2024

160. Injectable Mesocellular Foam Silica Microparticles with a Dual Role of Cell‐Recruiting Scaffolds and Intracellular Delivery Vehicles for Enhanced Cancer Vaccine.

Author

Im, Jihye, Choi, Youngjin, Nguyen, Thanh Loc, Kim, Min Kyung, and Kim, Jaeyun

Subjects

*CANCER vaccines, *TISSUE scaffolds, *VACCINE effectiveness, *FOAM, *DENDRITIC cells, *SILICA

Abstract

The cancer vaccine is one of the potent cancer immunotherapies based on provoking antigen‐specific adaptive immune responses in patients. Activating host antigen‐presenting cells by delivering antigens and adjuvants is one of the most important requirements to enhance cancer vaccine efficacy. This study proposes an effective cancer vaccine platform based on injectable mesocellular foam (MCF) silica microparticles with a dual role capable of in situ recruitment of host dendritic cells (DCs) and intracellular delivery of antigens to the recruited DCs. Subcutaneously administrated MCF microparticles loaded with chemoattractant to DCs (GM‐CSF), antigenic protein (OVA), and TLR9 agonist (CpG‐ODN) lead to robust DC maturation and high antigen‐specific T cell responses. The cell recruitment, DC activation, and T cell responses of MCF‐based cancer vaccine are significantly higher than injectable mesoporous silica scaffold, of which role is mostly limited to the cell recruiting scaffold. These features of MCF lead to effective inhibition of tumor growth in prophylactic vaccine setting and lung metastatic cancer model, representing MCF enabling cell‐recruiting scaffold formation and intracellular delivery of antigen can be a promising material platform for an enhanced cancer vaccine. [ABSTRACT FROM AUTHOR]

Published

2024

161. Prevalence characteristics of cervical human papillomavirus infection in Chengdu and Aba District, Sichuan Province, China.

Author

Wang, Qianqian, Xu, Min, Zhou, Hua, Li, Yahui, Ma, Jichun, Zhu, Xuan, and He, Weijun

Subjects

*HUMAN papillomavirus, *PAPILLOMAVIRUS diseases, *CHILDREN'S hospitals, *ECONOMIC status, *CANCER vaccines

Abstract

Purpose: The genotype distribution of human papillomavirus (HPV) infection varies greatly in different regions. This study aims to determine the prevalence and type-specific distribution of HPV among females from Chengdu and Aba in Sichuan Province, which differ in geographical location, economic status, and living habits. These can serve as evidence of epidemic patterns for future design and implementation of vaccination and screening programs. Methods: A retrospective cross-sectional study was conducted on 144 113 women who underwent cervical screening at Chengdu Women's and Children's Central Hospital from January 2015 to September 2020. Meanwhile, 1799 samples from February 2018 to December 2021 were collected from Aba Maternal and Child Health Hospital. HPV DNA genotype testing was performed using real‐time PCR. The overall prevalence, annual trend, age-specific prevalence, and type distribution were analyzed. Results: The overall HPV prevalence was 22.51% in Chengdu. During 2015–2020, the highest prevalence rate was observed in 2018. Age-specific HPV distribution displayed a bimodal distribution among women aged ≤25 or ≥46 years old. The top three prevalent genotypes were HPV52, -16, and -58. Although the total prevalence of HPV in Aba was 14.23%, there was an upward trend from 2018 to 2021. However, no significant differences were identified in HPV infection rate across all age groups. HPV52, -53, and -16 were the major genotypes. Furthermore, single-type HPV infections and high-risk HPV infections were identified as the most common infection types in both regions. Conclusion: Our findings demonstrate the overall prevalence of HPV was still high in Chengdu and Aba. The age-specific prevalence distribution demonstrated different patterns. Non-vaccine-covered HR-HPV53, -51and LR-HPV81, -CP8304 were frequently detected, which was worth significant clinical attention. In summary, regional HPV screening provides valuable clinical guidance for cervical cancer prevention and vaccine selection in Western China. [ABSTRACT FROM AUTHOR]

Published

2024

162. Factor of time in dendritic cell (DC) maturation: short-term activation of DCs significantly improves type 1 cytokine production and T cell responses.

Author

Poženel, Primož, Zajc, Kaja, and Švajger, Urban

Subjects

*T cells, *CYTOTOXIC T cells, *DENDRITIC cells, *CANCER vaccines, *CYTOKINES

Abstract

Dendritic cells (DCs) have been intensively studied in correlation to tumor immunology and for the development DC-based cancer vaccines. Here, we present the significance of the temporal aspect of DC maturation for the most essential subsequent timepoint, namely at interaction with responding T cells or after CD40-Ligand restimulation. Mostly, DC maturation is still being achieved by activation processes which lasts 24 h to 48 h. We hypothesized this amount of time is excessive from a biological standpoint and could be the underlying cause for functional exhaustion. Indeed, shorter maturation periods resulted in extensive capacity of monocyte-derived DCs to produce inflammatory cytokines after re-stimulation with CD40-Ligand. This effect was most evident for the primary type 1 polarizing cytokine, IL-12p70. This capacity reached peak at 6 h and dropped sharply with longer exposure to initial maturation stimuli (up to 48 h). The 6 h maturation protocol reflected superiority in subsequent functionality tests. Namely, DCs displayed twice the allostimulatory capacity of 24 h- and 48 h-matured DCs. Similarly, type 1 T cell response measured by IFN-γ production was 3-fold higher when CD4+ T cells had been stimulated with shortly matured DC and over 8-fold greater in case of CD8+ T cells, compared to longer matured DCs. The extent of melanoma-specific CD8+ cytotoxic T cell induction was also greater in case of 6 h DC maturation. The major limitation of the study is that it lacks in vivo evidence, which we aim to examine in the future. Our findings show an unexpectedly significant impact of temporal exposure to activation signals for subsequent DC functionality, which we believe can be readily integrated into existing knowledge on in vitro/ex vivo DC manipulation for various uses. We also believe this has important implications for DC vaccine design for future clinical trials. [ABSTRACT FROM AUTHOR]

Published

2024

163. A journey to your self: The vague definition of immune self and its practical implications.

Author

Koncz, Balázs, Balogh, Gergő Mihály, and Manczinger, Máté

Subjects

*SELF, *CANCER vaccines, *VACCINE development, *IMMUNE response

Abstract

The identification of immunogenic peptides has become essential in an increasing number of fields in immunology, ranging from tumor immunotherapy to vaccine development. The nature of the adaptive immune response is shaped by the similarity between foreign and self-protein sequences, a concept extensively applied in numerous studies. Can we precisely define the degree of similarity to self? Furthermore, do we accurately define immune self? In the current work, we aim to unravel the conceptual and mechanistic vagueness hindering the assessment of self-similarity. Accordingly, we demonstrate the remarkably low consistency among commonly employed measures and highlight potential avenues for future research. [ABSTRACT FROM AUTHOR]

Published

2024

164. Adjuvants for cancer mRNA vaccines in the era of nanotechnology: strategies, applications, and future directions.

Author

Cao, Lei-Ming, Yu, Yi-Fu, Li, Zi-Zhan, Zhong, Nian-Nian, Wang, Guang-Rui, Xiao, Yao, Liu, Bing, Wu, Qiu-Ji, Feng, Chun, and Bu, Lin-Lin

Subjects

*CANCER vaccines, *DRUG delivery systems, *COVID-19, *NANOTECHNOLOGY, *VACCINE effectiveness, *NANOMEDICINE, *SOLID dosage forms

Abstract

Research into mRNA vaccines is advancing rapidly, with proven efficacy against coronavirus disease 2019 and promising therapeutic potential against a variety of solid tumors. Adjuvants, critical components of mRNA vaccines, significantly enhance vaccine effectiveness and are integral to numerous mRNA vaccine formulations. However, the development and selection of adjuvant platforms are still in their nascent stages, and the mechanisms of many adjuvants remain poorly understood. Additionally, the immunostimulatory capabilities of certain novel drug delivery systems (DDS) challenge the traditional definition of adjuvants, suggesting that a revision of this concept is necessary. This review offers a comprehensive exploration of the mechanisms and applications of adjuvants and self-adjuvant DDS. It thoroughly addresses existing issues mentioned above and details three main challenges of immune-related adverse event, unclear mechanisms, and unsatisfactory outcomes in old age group in the design and practical application of cancer mRNA vaccine adjuvants. Ultimately, this review proposes three optimization strategies which consists of exploring the mechanisms of adjuvant, optimizing DDS, and improving route of administration to improve effectiveness and application of adjuvants and self-adjuvant DDS. [ABSTRACT FROM AUTHOR]

Published

2024

165. The Application of Newcastle Disease Virus (NDV): Vaccine Vectors and Tumor Therapy.

Author

Yang, Huiming, Tian, Jiaxin, Zhao, Jing, Zhao, Ye, and Zhang, Guozhong

Subjects

*NEWCASTLE disease virus, *CANCER vaccines, *VECTOR fields, *VACCINE development, *DNA vaccines

Abstract

Newcastle disease virus (NDV) is an avian pathogen with an unsegmented negative-strand RNA genome that belongs to the Paramyxoviridae family. While primarily pathogenic in birds, NDV presents no threat to human health, rendering it a safe candidate for various biomedical applications. Extensive research has highlighted the potential of NDV as a vector for vaccine development and gene therapy, owing to its transcriptional modularity, low recombination rate, and lack of a DNA phase during replication. Furthermore, NDV exhibits oncolytic capabilities, efficiently eliciting antitumor immune responses, thereby positioning it as a promising therapeutic agent for cancer treatment. This article comprehensively reviews the biological characteristics of NDV, elucidates the molecular mechanisms underlying its oncolytic properties, and discusses its applications in the fields of vaccine vector development and tumor therapy. [ABSTRACT FROM AUTHOR]

Published

2024

166. Knowledge and Perceptions About Cervical Cancer and Human Papillomavirus, and Relationship with E-health Literacy, and Affecting Factors Among Female University Students.

Author

Kılınç İşleyen, Eda, Korkmaz Aslan, Gülbahar, and Kartal, Asiye

Subjects

*HEALTH literacy, *PAPILLOMAVIRUS diseases, *RISK assessment, *CROSS-sectional method, *PEARSON correlation (Statistics), *FEMALE condoms, *ATTITUDES toward illness, *T-test (Statistics), *ADOLESCENT health, *QUESTIONNAIRES, *HUMAN sexuality, *INTERNET, *DESCRIPTIVE statistics, *HUMAN papillomavirus vaccines, *CANCER vaccines, *ONE-way analysis of variance, *MARITAL status, *PAP test, *PSYCHOLOGY of college students, *STUDENT attitudes, *REGRESSION analysis, *SEXUAL health, *DISEASE risk factors, CERVIX uteri tumors

Abstract

Purpose: The aim of this study is to reveal female university students' knowledge and perceptions about cervical cancer (CC) and human papillomavirus (HPV), and relationship with e-health literacy (e-HL). It also aims to determine the predictors affecting CC and HPV. Methods: A cross-sectional study was conducted with 589 female university students in Türkiye. Data were collected using a "Cervical Cancer and HPV Awareness Questionnaire" and an "E-health Literacy Scale (e-HLS)." Analysis involved Pearson correlation analysis, Independent Sample t-test, one-way analysis of variance, and Linear Regression analysis. Results: Results indicate that female students exhibited a low level of knowledge and perception about CC and HPV. Only 2.90% of students reported being vaccinated, while 39.90% had sexual experience. Higher knowledge levels were observed among married individuals, those familiar with HPV and the HPV vaccine, those who had undergone Pap smear tests, sexually active individuals, and consistent condom users. e-HL had a positive impact on knowledge and perceived threat about CC and HPV. The affecting predictors for knowledge about CC and HPV were found to be e-HLS (β = 0.911), having prior knowledge of HPV (β = 0.201), and being aware of the HPV vaccine (β = 0.172). In terms of perceived threat, the affecting predictors were e-HLS (β = 0.207), having heard of HPV (β = 0.101), and having knowledge of the HPV vaccine (β = 0.092). Conclusion: e-HL emerged as a crucial predictor positively influencing knowledge and perceptions about CC and HPV. This suggests the potential for organizing digital health campaigns to enhance awareness and understanding of CC and HPV. [ABSTRACT FROM AUTHOR]

Published

2024

167. Bimodal Effect of NKG2A Blockade on Intratumoral and Systemic CD8 T Cell Response Induced by Cancer Vaccine.

Author

Riva, Erika, Carboni, Susanna, di Berardino-Besson, Wilma, Moyat, Mati, Belnoue, Elodie, Devy-Dimanche, Laetitia, and Rossi, Matteo

Subjects

*T cells, *CANCER vaccines, *IMMUNE checkpoint inhibitors, *MICE, *ANIMAL experimentation, *DRUG efficacy, *TUMORS, *SURVIVAL analysis (Biometry), *CELL receptors

Abstract

Simple Summary: Combination therapy represents an important approach for the treatment of several types of cancer. We have previously shown that heterologous prime-boost vaccination with a protein-based cancer vaccine in combination with an oncolytic virus result in improved tumor growth control and deep remodeling of the tumor microenvironment. Here, we describe the impact of the immune-checkpoint inhibitor anti-NKG2A on tumor specific immune response induced by therapeutic vaccination in mouse tumor models. We show that NKG2A blockade has a bimodal effect on cancer vaccine induced T cell response, reducing the exhaustion of tumor infiltrating antigen-specific CD8 T cells, leading to an improved antitumoral efficacy, and at the same time influencing the establishment of systemic long-term immunological memory. Our data highlight the importance of considering the diverse impact of immunotherapy on systemic and intratumoral compartments, therefore potentially influencing the clinical outcome. Immune check-point blockade (ICB) has revitalized cancer immunotherapy, showing unprecedented efficacy despite only a narrow number of indications and with limited long-term protection. Cancer vaccines are promising combination partners for ICB to widen the patient population profiting from these treatments. Therapeutic heterologous prime-boost vaccination with KISIMATM protein vaccine and VSV-GP-TAg oncolytic virus was shown to inflame the tumor microenvironment, promoting significant infiltration of antigen-specific CD8 T cells resulting in robust antitumoral efficacy in mouse tumor models, and clinical trials are currently ongoing. Here, we report the impact of NKG2A blockade on antitumoral CD8 T cell immune response elicited by KISIMA—VSV-GP-TAg vaccination in tumor mouse models. Combination therapy significantly reduced the amount of vaccine-induced exhausted CD8 T cells infiltrating the tumor, resulting in short-term improved tumor growth control and prolonged mouse survival, while it also influenced the establishment of systemic effector memory CD8 T cell response. Taken together, these data show a compartment-dependent effect of NKG2A blockade on cancer vaccine-induced T cell immunity, increasing intratumoral T cell efficacy and attenuating the development of peripheral effector memory CD8 T cell response. [ABSTRACT FROM AUTHOR]

Published

2024

168. Nanomaterial-Driven Precision Immunomodulation: A New Paradigm in Therapeutic Interventions.

Author

Aljabali, Alaa A. A., Obeid, Mohammad A., Gammoh, Omar, El-Tanani, Mohamed, Mishra, Vijay, Mishra, Yachana, Kapre, Sumedha, Srivatsa Palakurthi, Sushesh, Hassan, Sk. Sarif, Nawn, Debaleena, Lundstrom, Kenneth, Hromić-Jahjefendić, Altijana, Serrano-Aroca, Ángel, Redwan, Elrashdy M., Uversky, Vladimir N., and Tambuwala, Murtaza M.

Subjects

*TUMOR treatment, *NANOSTRUCTURES, *POLYMERS, *PATIENT safety, *IMMUNOTHERAPY, *IMMUNE system, *TREATMENT effectiveness, *CANCER vaccines, *CELLULAR therapy, *PARADIGMS (Social sciences), *IMMUNE checkpoint inhibitors, *INDIVIDUALIZED medicine, *ARTIFICIAL membranes, *NANOPARTICLES

Abstract

Simple Summary: This review assesses the integration of nanotechnology and immunotherapy, with a specific focus on the utilization of nanomaterials to modulate the immune system in conditions such as cancer and autoimmunity. Liposomes, polymers, and inorganic nanoparticles (NPs) are versatile nanomaterials capable of effectively transporting immunomodulatory molecules. Their interactions with immune cells have contributed to the development of checkpoint inhibitors, improved cancer vaccines, and the optimization of adoptive cell therapies. These approaches enable the fine-tuning of immune responses with minimal adverse effects. Positioned at the forefront of the convergence of nanotechnology and immunology, nanomaterial-based platforms have the potential to revolutionize patient-centered immunotherapy. These systems are used in the transformative era of disease management by prioritizing safety, personalization, and compliance with regulations. Immunotherapy is a rapidly advancing field of research in the treatment of conditions such as cancer and autoimmunity. Nanomaterials can be designed for immune system manipulation, with precise targeted delivery and improved immunomodulatory efficacy. Here, we elaborate on various strategies using nanomaterials, including liposomes, polymers, and inorganic NPs, and discuss their detailed design intricacies, mechanisms, and applications, including the current regulatory issues. This type of nanomaterial design for targeting specific immune cells or tissues and controlling release kinetics could push current technological frontiers and provide new and innovative solutions for immune-related disorders and diseases without off-target effects. These materials enable targeted interactions with immune cells, thereby enhancing the effectiveness of checkpoint inhibitors, cancer vaccines, and adoptive cell therapies. Moreover, they allow for fine-tuning of immune responses while minimizing side effects. At the intersection of nanotechnology and immunology, nanomaterial-based platforms have immense potential to revolutionize patient-centered immunotherapy and reshape disease management. By prioritizing safety, customization, and compliance with regulatory standards, these systems can make significant contributions to precision medicine, thereby significantly impacting the healthcare landscape. [ABSTRACT FROM AUTHOR]

Published

2024

169. A systematic review of immunotherapy in high-grade glioma: learning from the past to shape future perspectives.

Author

Sferruzza, Giacomo, Consoli, Stefano, Dono, Fedele, Evangelista, Giacomo, Giugno, Alessia, Pronello, Edoardo, Rollo, Eleonora, Romozzi, Marina, Rossi, Lucrezia, and Pensato, Umberto

Subjects

*CLINICAL trials, *IMMUNE checkpoint inhibitors, *IMMUNOTHERAPY, *BRAIN tumors, *PEPTIDE vaccines, *GLIOMAS, *BIBLIOGRAPHIC databases

Abstract

High-grade gliomas (HGGs) constitute the most common malignant primary brain tumor with a poor prognosis despite the standard multimodal therapy. In recent years, immunotherapy has changed the prognosis of many cancers, increasing the hope for HGG therapy. We conducted a comprehensive search on PubMed, Scopus, Embase, and Web of Science databases to include relevant studies. This study was conducted according to the Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines. Fifty-two papers were finally included (44 phase II and eight phase III clinical trials) and further divided into four different subgroups: 14 peptide vaccine trials, 15 dendritic cell vaccination (DCV) trials, six immune checkpoint inhibitor (ICI) trials, and 17 miscellaneous group trials that included both "active" and "passive" immunotherapies. In the last decade, immunotherapy created great hope to increase the survival of patients affected by HGGs; however, it has yielded mostly dismal results in the setting of phase III clinical trials. An in-depth analysis of these clinical results provides clues about common patterns that have led to failures at the clinical level and helps shape the perspective for the next generation of immunotherapies in neuro-oncology. [ABSTRACT FROM AUTHOR]

Published

2024

170. The Conjugate of Rhein–Artesunate for Inducing Immunogenic Cell Death to Prepare Cancer Vaccine and Suppress Tumor Growth.

Author

Xu, Zi-Jian, Wang, Wei, and Huang, Shi-Wen

Subjects

*TUMOR growth, *CANCER vaccines, *CELL death, *DRUG design, *REACTIVE oxygen species, *MITOCHONDRIAL membranes

Abstract

The conjugate of rhein and artesunate have shown promising effects in inducing immunogenic cell death (ICD) and inhibiting tumor growth. Rhein, a natural anthraquinone derivative found in various medicinal plants such as Rheum palmatum, possesses diverse pharmacological properties including anti-inflammatory and anticancer activities. Artesunate, a sesquiterpene lactone extracted from Artemisia annua, exhibits potent antimalarial efficacy and has garnered attention for its potential anticancer properties. Through rational drug design, the conjugation of rhein with artesunate has yielded compounds capable of selectively targeting mitochondria of cancer cells, inducing oxidative stress-mediated ICD, and enhancing the immunogenicity of tumor cells. The conjugate leverages the inherent cytotoxicity of artesunate while incorporating the capability to selectively target the mitochondria of rhein, thereby fostering a special approach to immunotherapy for cancer. Upon accumulation in the mitochondria, these compounds induce the generation of reactive oxygen species (ROS), leading to mitochondrial membrane potential (ΔΨm) reduction and endoplasmic reticulum (ER) stress. Notably, the conjugate exhibits far more potent ICD-inducing properties than their parent compounds. In vivo studies have demonstrated that the vaccine, when treated with the conjugate, effectively suppresses tumor growth. [ABSTRACT FROM AUTHOR]

Published

2024

171. Neoantigens and cancer-testis antigens as promising vaccine candidates for triple-negative breast cancer: Delivery strategies and clinical trials.

Author

Malla, RamaRao, Srilatha, Mundla, Muppala, Veda, Farran, Batoul, Chauhan, Virander Singh, and Nagaraju, Ganji Purnachandra

Subjects

*TRIPLE-negative breast cancer, *TESTICULAR cancer, *CLINICAL trials, *SOMATIC mutation, *CANCER vaccines

Abstract

Immunotherapy is gaining prominence as a promising strategy for treating triple-negative breast cancer (TNBC). Neoantigens (neoAgs) and cancer-testis antigens (CTAs) are tumor-specific targets originating from somatic mutations and epigenetic changes in cancer cells. These antigens hold great promise for personalized cancer vaccines, as supported by preclinical and early clinical evidence in TNBC. This review delves into the potential of neoAgs and CTAs as vaccine candidates, emphasizing diverse strategies and delivery approaches. It also highlights the current status of vaccination modalities undergoing clinical trials in TNBC therapy. A comprehensive understanding of neoAgs, CTAs, vaccination strategies, and innovative delivery methods is crucial for optimizing neoAg-based immunotherapies in clinical practice. [Display omitted] • Neoantigens and cancer-testis antigens are promising vaccine candidates for triple-negative breast cancer. • NeoAgs and cancer testis antigens expression in triple-negative breast cancer can be enhanced. • Various vaccine delivery strategies for breast cancer have been developed and tested in clinical trials. • Targeted therapies can improve triple-negative breast cancer management. [ABSTRACT FROM AUTHOR]

Published

2024

172. Alpha-galactosylceramide improves the potency of mRNA LNP vaccines against cancer and intracellular bacteria.

Author

Meulewaeter, Sofie, Aernout, Ilke, Deprez, Joke, Engelen, Yanou, De Velder, Margo, Franceschini, Lorenzo, Breckpot, Karine, Van Calenbergh, Serge, Asselman, Caroline, Boucher, Katie, Impens, Francis, De Smedt, Stefaan C., Verbeke, Rein, and Lentacker, Ine

Subjects

*T cells, *CANCER vaccines, *MESSENGER RNA, *KILLER cells, *SIGNAL peptides, *CELLULAR immunity, *LISTERIA monocytogenes

Abstract

Although various types of mRNA-based vaccines have been explored, the optimal conditions for induction of both humoral and cellular immunity remain rather unknown. In this study, mRNA vaccines of nucleoside-modified mRNA in lipoplexes (LPXs) or lipid nanoparticles (LNPs) were evaluated after administration in mice through different routes, assessing mRNA delivery, tolerability and immunogenicity. In addition, we investigated whether mRNA vaccines could benefit from the inclusion of the adjuvant alpha-galactosylceramide (αGC), an invariant Natural Killer T (iNKT) cell ligand. Intramuscular (IM) vaccination with ovalbumin (OVA)-encoding mRNA encapsulated in LNPs adjuvanted with αGC showed the highest antibody- and CD8+ T cell responses. Furthermore, we observed that addition of signal peptides and endocytic sorting signals of either LAMP1 or HLA-B7 in the OVA-encoding mRNA sequence further enhanced CD8+ T cell activation although reducing the induction of IgG antibody responses. Moreover, mRNA LNPs with the ionizable lipidoid C12–200 exhibited higher pro-inflammatory- and reactogenic activity compared to mRNA LNPs with SM-102, correlating with increased T cell activation and antitumor potential. We also observed that αGC could further enhance the cellular immunity of clinically relevant mRNA LNP vaccines, thereby promoting therapeutic antitumor potential. Finally, a Listeria monocytogenes mRNA LNP vaccine supplemented with αGC showed synergistic protective effects against listeriosis, highlighting a key advantage of co-activating iNKT cells in antibacterial mRNA vaccines. Taken together, our study offers multiple insights for optimizing the design of mRNA vaccines for disease applications, such as cancer and intracellular bacterial infections. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

173. Emerging advances in delivery systems for mRNA cancer vaccines.

Author

Jiang, Zhimei, Xu, Yanhua, Du, Guangsheng, and Sun, Xun

Subjects

*CANCER vaccines, *POLYMERIC nanocomposites, *IMMUNE checkpoint inhibitors, *TUMOR antigens

Abstract

The success of lipid nanoparticles (LNPs) in treating COVID-19 promotes further research of mRNA vaccines for cancer vaccination. Aiming at overcoming the constraints of currently available mRNA carriers, various alternative nano-vectors have been developed for delivering tumor antigen encoding mRNA and showed versatility to induce potent anti-tumor immunity. The rationally designed nano-vaccines increase the immune activation capacity of the mRNA vaccines by promoting crucial aspects including mRNA stability, cellular uptake, endosomal escape and targeting of immune cells or organs. Herein, we summarized the research progress of various mRNA based nano-vaccines that have been reported for cancer vaccination, including LNPs, lipid enveloped hybrid nanoparticles, polymeric nanoparticles etc. Several strategies that have been reported for further enhancing the immune stimulation efficacy of mRNA nano-vaccines, including developing nano-vaccines for co-delivering adjuvants, combination of immune checkpoint inhibitors, and optimizing the injection routes for boosting immune responses, have been reviewed. The progress of mRNA nano-vaccines in clinical trials and the prospect of the mRNA vaccines for cancer vaccination are also discussed. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

174. Response to COVID‐19 vaccination in patients on cancer therapy: Analysis in a SARS‐CoV‐2‐naïve population.

Author

Cavic, George, Almonte, Andrew A., Hicks, Sarah M., Neeman, Teresa, Wang, Jo‐Wai, Brew, Sue, Choi, Philip Y., Cockburn, Ian, Gardiner, Elizabeth E., Yip, Desmond, Fahrer, Aude M., and Kanjanapan, Yada

Subjects

*COVID-19, *COVID-19 pandemic, *CANCER vaccines, *COVID-19 vaccines, *BOOSTER vaccines

Abstract

Background: Cancer patients have increased morbidity and mortality from COVID‐19, but may respond poorly to vaccination. The Evaluation of COVID‐19 Vaccination Efficacy and Rare Events in Solid Tumors (EVEREST) study, comparing seropositivity between cancer patients and healthy controls in a low SARS‐CoV‐2 community‐transmission setting, allows determination of vaccine response with minimal interference from infection. Methods: Solid tumor patients from The Canberra Hospital, Canberra, Australia, and healthy controls who received COVID‐19 vaccination between March 2021 and January 2022 were included. Blood samples were collected at baseline, pre‐second vaccine dose and at 1, 3 (primary endpoint), and 6 months post‐second dose. SARS‐CoV‐2 anti‐spike‐RBD (S‐RBD) and anti‐nucleocapsid IgG antibodies were measured. Results: Ninety‐six solid tumor patients and 20 healthy controls were enrolled, with median age 62 years, and 60% were female. Participants received either AZD1222 (65%) or BNT162b2 (35%) COVID‐19 vaccines. Seropositivity 3 months post vaccination was 87% (76/87) in patients and 100% (20/20) in controls (p =.12). Seropositivity was observed in 84% of patients on chemotherapy, 80% on immunotherapy, and 96% on targeted therapy (differences not satistically significant). Seropositivity in cancer patients increased from 40% (6/15) after first dose, to 95% (35/37) 1 month after second dose, then dropped to 87% (76/87) 3 months after second dose. Conclusion: Most patients and all controls became seropositive after two vaccine doses. Antibody concentrations and seropositivity showed a decrease between 1 and 3 months post vaccination, highlighting need for booster vaccinations. SARS‐CoV‐2 infection amplifies S‐RBD antibody responses; however, cannot be adequately identified using nucleocapsid serology. This underlines the value of our COVID‐naïve population in studying vaccine immunogenicity. [ABSTRACT FROM AUTHOR]

Published

2024

175. A tumor‐targeting nano‐adjuvant for in situ vaccine based on ultrasound therapy.

Author

Cui, Linjie, Yao, Haochen, Xue, Fuxin, Sun, Jiali, Ren, Xitong, Zheng, Mengfei, Liu, Zhilin, and Tang, Zhaohui

Subjects

ULTRASONIC imaging, IMMUNOLOGICAL adjuvants, IMMUNOLOGIC memory, GLUTAMIC acid, CANCER vaccines

Abstract

Ultrasound‐generated antigens combined with TLR7/8 agonists as adjuvants have demonstrated significant anti‐tumor efficacy as an in‐situ vaccine. However, the use of TLR7/8 agonists can cause severe inflammatory responses. In this study, we present a novel tumor‐targeting nano‐adjuvant termed aPDL1‐PLG/R848 NPs, which are composed of aPDL1 antibody, Fc‐III‐4C peptide linker (Fc‐linker) and poly(L‐glutamic acid)‐grafted‐R848. Under ultrasound irradiation, antigen‐presenting cells activate immune mechanisms in vivo under dual stimulation of in situ antigens and immune adjuvants. The strategy inhibits primary tumor growth and induces a strong antigen‐specific immune memory effect to prevent tumor recurrence in vivo. This work offers a safe and potent platform for an in situ cancer vaccine based on ultrasound therapy. [ABSTRACT FROM AUTHOR]

Published

2024

176. Real-World Assessment of Recommended COVID-19 Vaccination Waiting Period after Chemotherapy.

Author

Cheng, Kai-Wen, Yen, Chi-Hua, Chang, Renin, Wei, James Cheng-Chung, and Wang, Shiow-Ing

Subjects

COVID-19 vaccines, COVID-19, URINARY tract infections, PROPORTIONAL hazards models, CANCER vaccines

Abstract

There is a knowledge gap concerning the proper timing for COVID-19 vaccination in cancer patients undergoing chemotherapy. We aimed to evaluate the suitability of the guidelines that recommend waiting at least three months after undergoing chemotherapy before receiving a COVID-19 vaccine. This retrospective cohort study used aggregated data from the TriNetX US Collaboratory network. Participants were grouped into two groups based on the interval between chemotherapy and vaccination. The primary outcome assessed was infection risks, including COVID-19; skin, intra-abdominal, and urinary tract infections; pneumonia; and sepsis. Secondary measures included healthcare utilization and all causes of mortality. Kaplan–Meier analysis and the Cox proportional hazard model were used to calculate the cumulative incidence and hazard ratio (HR) and 95% confidence intervals for the outcomes. The proportional hazard assumption was tested with the generalized Schoenfeld approach. Four subgroup analyses (cancer type, vaccine brand, sex, age) were conducted. Sensitivity analyses were performed to account for competing risks and explore three distinct time intervals. Patients receiving a vaccine within three months after chemotherapy had a higher risk of COVID-19 infection (HR: 1.428, 95% CI: 1.035–1.970), urinary tract infection (HR: 1.477, 95% CI: 1.083–2.014), and sepsis (HR: 1.854, 95% CI: 1.091–3.152) compared to those who adhered to the recommendations. Hospital inpatient service utilization risk was also significantly elevated for the within three months group (HR: 1.692, 95% CI: 1.354–2.115). Adhering to a three-month post-chemotherapy waiting period reduces infection and healthcare utilization risks for cancer patients receiving a COVID-19 vaccine. [ABSTRACT FROM AUTHOR]

Published

2024

177. Synergistic Effects of Metal–Organic Nanoplatform and Guanine Quadruplex-Based CpG Oligodeoxynucleotides in Therapeutic Cancer Vaccines with Different Tumor Antigens.

Author

Li, Xia, Ebara, Mitsuhiro, Shirahata, Naoto, Yamazaki, Tomohiko, and Hanagata, Nobutaka

Subjects

TUMOR antigens, CPG nucleotides, CANCER vaccines, QUADRUPLEX nucleic acids, GUANINE, CELL populations

Abstract

Oligodeoxynucleotides (ODNs) containing unmethylated cytosine–phosphate–guanosine (CpG) motifs are readily recognized by Toll-like receptor 9 on immune cells, trigger an immunomodulatory cascade, induce a Th1 -biased immune milieu, and have great potential as an adjuvant in cancer vaccines. In this study, a green one-step synthesis process was adopted to prepare an amino-rich metal–organic nanoplatform (FN). The synthesized FN nanoplatform can simultaneously and effectively load model tumor antigens (OVA)/autologous tumor antigens (dLLC) and immunostimulatory CpG ODNs with an unmodified PD backbone and a guanine quadruplex structure to obtain various cancer vaccines. The FN nanoplatform and immunostimulatory CpG ODNs generate synergistic effects to enhance the immunogenicity of different antigens and inhibit the growth of established and distant tumors in both the murine E.G7-OVA lymphoma model and the murine Lewis lung carcinoma model. In the E.G7-OVA lymphoma model, vaccination efficiently increases the CD4+, CD8+, and tetramer+CD8+ T cell populations in the spleens. In the Lewis lung carcinoma model, vaccination efficiently increases the CD3+CD4+ and CD3+CD8+ T cell populations in the spleens and CD3+CD8+, CD3−CD8+, and CD11b+CD80+ cell populations in the tumors, suggesting the alteration of tumor microenvironments from cold to hot tumors. [ABSTRACT FROM AUTHOR]

Published

2024

178. Hospital-Based Influenza and Pneumococcal Vaccination for Cancer Patients on Active Treatment and Their Family Members during the COVID-19 Pandemic in Italy: A Single-Center Experience.

Author

Dalu, Davide, Ridolfo, Anna Lisa, Ruggieri, Lorenzo, Cona, Maria Silvia, Riva, Agostino, De Francesco, Davide, Tricella, Chiara, Fasola, Cinzia, Ferrario, Sabrina, Gambaro, Anna, Lombardi Stocchetti, Benedetta, Smiroldo, Valeria, Rebecchi, Gaia, Piva, Sheila, Carrozzo, Giorgia, Antinori, Spinello, and La Verde, Nicla

Subjects

COVID-19 pandemic, CANCER vaccines, PNEUMOCOCCAL vaccines, INFLUENZA vaccines, PNEUMOCOCCAL pneumonia, CANCER fatigue

Abstract

In patients with cancer, tumor- and treatment-induced immunosuppression are responsible for a four-fold increase in morbidity and mortality caused by influenza and invasive Streptococcus pneumoniae infections compared to the general population. The main oncology societies strongly recommend vaccination in patients with cancer to prevent these infections. However, vaccine hesitancy is a main concern in this population. The aim of this study was to assess the feasibility of in-hospital vaccination for patients under anticancer treatment and their family members (FMs) against influenza and pneumococcal infections during the COVID-19 pandemic in order to increase vaccine coverage. This was a single-center, prospective, observational study conducted at the Department of Oncology of Luigi Sacco University Hospital (Milan, Italy) between October 2020 and April 2021. The main primary outcome was the incidence of influenza-like illness (ILI) and pneumococcal infections. The main secondary outcome was safety. A total of 341 subjects were enrolled, including 194 patients with cancer and 147 FMs. The incidence of ILI was higher among patients than among FMs (9% vs. 2.7%, OR 3.92, p = 0.02). Moreover, two subjects were diagnosed with pneumococcal pneumonia. The most frequent vaccine-related AEs were pain in the injection site (31%) and fatigue (8.7%). In conclusion, this hospital-based vaccination strategy was feasible during the COVID-19 pandemic, representing a potential model to maximize vaccine coverage during a public health emergency. [ABSTRACT FROM AUTHOR]

Published

2024

179. Rational Design of Lipid-Based Vectors for Advanced Therapeutic Vaccines.

Author

Ma, Yufei, Chen, Yiang, Li, Zilu, and Zhao, Yu

Subjects

TRANSMISSIBLE tumors, VACCINES, CHEMICAL properties, STRUCTURE-activity relationships, CANCER vaccines

Abstract

Recent advancements in vaccine delivery systems have seen the utilization of various materials, including lipids, polymers, peptides, metals, and inorganic substances, for constructing non-viral vectors. Among these, lipid-based nanoparticles, composed of natural, synthetic, or physiological lipid/phospholipid materials, offer significant advantages such as biocompatibility, biodegradability, and safety, making them ideal for vaccine delivery. These lipid-based vectors can protect encapsulated antigens and/or mRNA from degradation, precisely tune chemical and physical properties to mimic viruses, facilitate targeted delivery to specific immune cells, and enable efficient endosomal escape for robust immune activation. Notably, lipid-based vaccines, exemplified by those developed by BioNTech/Pfizer and Moderna against COVID-19, have gained approval for human use. This review highlights rational design strategies for vaccine delivery, emphasizing lymphoid organ targeting and effective endosomal escape. It also discusses the importance of rational formulation design and structure–activity relationships, along with reviewing components and potential applications of lipid-based vectors. Additionally, it addresses current challenges and future prospects in translating lipid-based vaccine therapies for cancer and infectious diseases into clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

180. Long Prime–Boost Interval and Heightened Anti-GD2 Antibody Response to Carbohydrate Cancer Vaccine.

Author

Cheung, Irene Y., Mauguen, Audrey, Modak, Shakeel, Basu, Ellen M., Feng, Yi, Kushner, Brian H., and Cheung, Nai Kong

Subjects

CANCER vaccines, ANTIBODY formation, WILCOXON signed-rank test, CARBOHYDRATES, ANTIBODY titer

Abstract

The carbohydrate ganglioside GD2/GD3 cancer vaccine adjuvanted by β-glucan stimulates anti-GD2 IgG1 antibodies that strongly correlate with improved progression-free survival (PFS) and overall survival (OS) among patients with high-risk neuroblastoma. Thirty-two patients who relapsed on the vaccine (first enrollment) were re-treated on the same vaccine protocol (re-enrollment). Titers during the first enrollment peaked by week 32 at 751 ± 270 ng/mL, which plateaued despite vaccine boosts at 1.2–4.5 month intervals. After a median wash-out interval of 16.1 months from the last vaccine dose during the first enrollment to the first vaccine dose during re-enrollment, the anti-GD2 IgG1 antibody rose to a peak of 4066 ± 813 ng/mL by week 3 following re-enrollment (p < 0.0001 by the Wilcoxon matched-pairs signed-rank test). Yet, these peaks dropped sharply and continually despite repeated boosts at 1.2–4.5 month intervals, before leveling off by week 20 to the first enrollment peak levels. Despite higher antibody titers, patients experienced no pain or neuropathic side effects, which were typically associated with immunotherapy using monoclonal anti-GD2 antibodies. By the Kaplan–Meier method, PFS was estimated to be 51%, and OS was 81%. The association between IgG1 titer during re-enrollment and β-glucan receptor dectin-1 SNP rs3901533 was significant (p = 0.01). A longer prime–boost interval could significantly improve antibody responses in patients treated with ganglioside conjugate cancer vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

181. Transformers meets neoantigen detection: a systematic literature review.

Author

Machaca, Vicente, Goyzueta, Valeria, Cruz, María Graciel, Sejje, Erika, Pilco, Luz Marina, López, Julio, and Túpac, Yván

Subjects

TRANSFORMER models, NATURAL language processing, ALTERNATIVE treatment for cancer, ARTIFICIAL intelligence, CANCER vaccines

Abstract

Cancer immunology offers a new alternative to traditional cancer treatments, such as radiotherapy and chemotherapy. One notable alternative is the development of personalized vaccines based on cancer neoantigens. Moreover, Transformers are considered a revolutionary development in artificial intelligence with a significant impact on natural language processing (NLP) tasks and have been utilized in proteomics studies in recent years. In this context, we conducted a systematic literature review to investigate how Transformers are applied in each stage of the neoantigen detection process. Additionally, we mapped current pipelines and examined the results of clinical trials involving cancer vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

182. Irreversible Electroporation Combined With Dendritic Cell-based Vaccines for the Treatment of Osteosarcoma.

Author

Sun, Chong, Ma, Xuexiao, Zhou, Chuanli, Zhang, Zhuoli, and Guo, Jianwei

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Pediatric, Orphan Drug, Immunization, Rare Diseases, Pediatric Cancer, Cancer, Vaccine Related, 6.1 Pharmaceuticals, 5.1 Pharmaceuticals, Humans, Cancer Vaccines, Electroporation, Osteosarcoma, Bone Neoplasms, Dendritic Cells, Treatment Outcome, Dendritic cells, vaccine, irreversible electroporation, osteosarcoma, combination therapies, review, Oncology & Carcinogenesis, Oncology and carcinogenesis

Abstract

Osteosarcoma is the most common primary bone malignancy, and surgical resection combined with neoadjuvant chemotherapy is the gold-standard treatment for affected patients. Although the overall survival rates for patients with osteosarcoma currently range from 60% to 70%, outcomes remain disappointing for patients with recurrent, metastatic, or unresectable disease. Irreversible electroporation (IRE) is a novel ablation technique with the potential to elicit an immune response in solid tumors. Dendritic cell (DC)-based tumor vaccines have shown promising therapeutic efficacy in preclinical studies focused on osteosarcoma; however, only limited therapeutic efficacy has been observed in clinical trials. Thus, there is considerable potential therapeutic value in developing combination osteosarcoma treatments that involve IRE and DC-based tumor vaccines. In this review, we discuss recent advances in preclinical and clinical DC-based immunotherapies, as well as potential combinations of DC-based vaccines and IRE, that may improve therapeutic outcomes for patients with osteosarcoma.

Published

2023

183. A co-formulated vaccine of irradiated cancer cells and cowpea mosaic virus improves ovarian cancer rejection

Author

Zhao, Zhongchao, Ortega-Rivera, Oscar A, Chung, Young Hun, Simms, Andrea, and Steinmetz, Nicole F

Subjects

Macromolecular and Materials Chemistry, Chemical Sciences, Engineering, Biomedical Engineering, Chemical Engineering, Cancer, Immunization, Prevention, Ovarian Cancer, Rare Diseases, Vaccine Related, Good Health and Well Being, Humans, Animals, Female, Comovirus, Disease Models, Animal, Cancer Vaccines, Ovarian Neoplasms, Polyethylene Glycols, Macromolecular and materials chemistry, Biomedical engineering, Chemical engineering

Abstract

Ovarian cancer ranks fifth in cancer deaths amongst women, and most patients are diagnosed with late-stage and disseminated diseases. Surgical debulking and chemotherapy remove most of the tumor burden and provide a short period of remission; however, most patients experience cancer relapse and eventually succumb to the disease. Therefore, there is an urgent need for the development of vaccines to prime anti-tumor immunity and prevent its recurrence. Here we developed vaccine formulations composed of a mixture of irradiated cancer cells (ICCs, providing the antigen) and cowpea mosaic virus (CPMV) adjuvants. More specifically we compared the efficacy of co-formulated vs. mixtures of ICCs and CPMV. Specifically, we compared co-formulations where the ICCs and CPMV are bonded through natural CPMV-cell interactions or chemical coupling vs. mixtures of PEGylated CPMV and ICCs, where PEGylation of CPMV prevents ICC interactions. Flow cytometry and confocal imaging provided insights into the composition of the vaccines and their efficacy was tested using a mouse model of disseminated ovarian cancer. 67% of the mice receiving the co-formulated CPMV-ICCs survived the initial tumor challenge, and 60% of the surviving mice rejected tumors in a re-challenge experiment. In stark contrast, simple mixtures of the ICCs and (PEGylated) CPMV adjuvants were ineffective. Overall, this study highlights the importance of the co-delivery of cancer antigens and adjuvants in ovarian cancer vaccine development.

Published

2023

184. Phase II Trial of Nelipepimut-S Peptide Vaccine in Women with Ductal Carcinoma In Situ.

Author

OShea, Anne, Clifton, Guy, Qiao, Na, Heckman-Stoddard, Brandy, Wojtowicz, Malgorzata, Dimond, Eileen, Bedrosian, Isabelle, Weber, Diane, Garber, Judy, Husband, Alexander, Pastorello, Ricardo, Lee, J, Hernandez, Mike, Liu, Diane, Vornik, Lana, Alatrash, Gheath, Peoples, George, Mittendorf, Elizabeth, and Brown, Patrick

Subjects

Humans, Female, Granulocyte-Macrophage Colony-Stimulating Factor, Carcinoma, Intraductal, Noninfiltrating, HLA-A2 Antigen, Neoplasm Recurrence, Local, Peptide Fragments, Vaccines, Subunit, Cancer Vaccines

Abstract

UNLABELLED: NeuVax is a vaccine comprised of the HER2-derived MHC class I peptide E75 (nelipepimut-S, NPS) combined with GM-CSF. We completed a randomized trial of preoperative vaccination with NeuVax versus GM-CSF alone in patients with ductal carcinoma in situ (DCIS). The primary objective was to evaluate for NPS-specific cytotoxic T lymphocyte (CTL) responses. Patients with human leukocyte antigen (HLA)-A2-positive DCIS were enrolled and randomized 2:1 to NeuVax versus GM-CSF alone and received two inoculations prior to surgery. The number of NPS-specific CTL was measured pre-vaccination, at surgery, and 1 and 3 to 6 months post-operation by dextramer assay. Differences in CTL responses between groups and between pre-vaccination and 1-month post-operation were analyzed using a two-sample t test or Wilcoxon rank sum test. The incidence and severity of adverse events were compared between groups. Overall, 45 patients were registered; 20 patients were HLA-A2 negative, 7 declined participation, 1 withdrew, and 4 failed screening for other reasons. The remaining 13 were randomized to NeuVax (n = 9) or GM-CSF alone (n = 4). Vaccination was well-tolerated with similar treatment-related toxicity between groups with the majority (>89%) of adverse events being grade 1. The percentage of NPS-specific CTLs increased in both arms between baseline (pre-vaccination) and 1-month post-operation. The increase was numerically greater in the NPS+GM-CSF arm, but the difference was not statistically significant. NPS+GM-CSF is safe and well-tolerated when given preoperatively to patients with DCIS. In patients with HLA-A2-positive DCIS, two inoculations with NPS+GM-CSF can induce in vivo immunity and a continued antigen-specific T-cell response 1-month postsurgery. PREVENTION RELEVANCE: This trial showed that vaccination of patients with HLA-A2-positive DCIS with NeuVax in the preoperative setting can induce a sustained antigen-specific T-cell response. This provides proof of principle that vaccination in the preoperative or adjuvant setting may stimulate an adaptive immune response that could potentially prevent disease recurrence.

Published

2023

185. Novel Vaccine against Pathological Pyroglutamate-Modified Amyloid Beta for Prevention of Alzheimer's Disease.

Author

Zagorski, Karen, King, Olga, Hovakimyan, Armine, Petrushina, Irina, Antonyan, Tatevik, Chailyan, Gor, Ghazaryan, Manush, Hyrc, Krzysztof L, Chadarevian, Jean Paul, Davtyan, Hayk, Blurton-Jones, Mathew, Cribbs, David H, Agadjanyan, Michael G, and Ghochikyan, Anahit

Subjects

Brain, Animals, Mice, Transgenic, Mice, Alzheimer Disease, Disease Models, Animal, Pyrrolidonecarboxylic Acid, Cancer Vaccines, Immunotherapy, Amyloid beta-Peptides, Plaque, Amyloid, Alzheimer’s disease, post-translational modification, prevention, pyroglutamate, vaccine, Neurodegenerative, Immunization, Vaccine Related, Dementia, Alzheimer's Disease, Aging, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Neurosciences, Acquired Cognitive Impairment, Prevention, Biotechnology, Brain Disorders, Aetiology, 3.4 Vaccines, Prevention of disease and conditions, and promotion of well-being, 2.1 Biological and endogenous factors, Neurological, Good Health and Well Being, Alzheimer's disease, Other Chemical Sciences, Genetics, Other Biological Sciences, Chemical Physics

Abstract

Post-translationally modified N-terminally truncated amyloid beta peptide with a cyclized form of glutamate at position 3 (pE3Aβ) is a highly pathogenic molecule with increased neurotoxicity and propensity for aggregation. In the brains of Alzheimer's Disease (AD) cases, pE3Aβ represents a major constituent of the amyloid plaque. The data show that pE3Aβ formation is increased at early pre-symptomatic disease stages, while tau phosphorylation and aggregation mostly occur at later stages of the disease. This suggests that pE3Aβ accumulation may be an early event in the disease pathogenesis and can be prophylactically targeted to prevent the onset of AD. The vaccine (AV-1986R/A) was generated by chemically conjugating the pE3Aβ3-11 fragment to our universal immunogenic vaccine platform MultiTEP, then formulated in AdvaxCpG adjuvant. AV-1986R/A showed high immunogenicity and selectivity, with endpoint titers in the range of 105-106 against pE3Aβ and 103-104 against the full-sized peptide in the 5XFAD AD mouse model. The vaccination showed efficient clearance of the pathology, including non-pyroglutamate-modified plaques, from the mice brains. AV-1986R/A is a novel promising candidate for the immunoprevention of AD. It is the first late preclinical candidate which selectively targets a pathology-specific form of amyloid with minimal immunoreactivity against the full-size peptide. Successful translation into clinic may offer a new avenue for the prevention of AD via vaccination of cognitively unimpaired individuals at risk of disease.

Published

2023

186. Vaccinating against cancer: getting to prime time.

Author

Chang, Ryan, Gulley, James L, and Fong, Lawrence

Subjects

T-Lymphocytes, Humans, Melanoma, Cancer Vaccines, Immunotherapy, Oncolytic Virotherapy, Adjuvants, Immunologic, Antigens, Neoplasm, Immunity, Vaccination, Prevention, Rare Diseases, Immunization, Orphan Drug, Cancer, Vaccine Related, Antigens, ~Neoplasm, Adjuvants, ~Immunologic

Abstract

Immunotherapies, such as immune checkpoint inhibitors, cellular therapies, and T-cell engagers, have fundamentally changed our approach to treating cancer. However, successes with cancer vaccines have been more difficult to realize. While vaccines against specific viruses have been widely adopted to prevent the development of cancer, only two vaccines can improve survival in advanced disease: sipuleucel-T and talimogene laherparepvec. These represent the two approaches that have the most traction: vaccinating against cognate antigen and priming responses using tumors in situ. Here, we review the challenges and opportunities researchers face in developing therapeutic vaccines for cancer.

Published

2023

187. Combination of AFP vaccine and immune checkpoint inhibitors slows hepatocellular carcinoma progression in preclinical models

Author

Lu, Xinjun, Deng, Shanshan, Xu, Jiejie, Green, Benjamin L, Zhang, Honghua, Cui, Guofei, Zhou, Yi, Zhang, Yi, Xu, Hongwei, Zhang, Fapeng, Mao, Rui, Zhong, Sheng, Cramer, Thorsten, Evert, Matthias, Calvisi, Diego F, He, Yukai, Liu, Chao, and Chen, Xin

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Cancer, Digestive Diseases, Rare Diseases, Immunotherapy, Vaccine Related, Liver Cancer, Biotechnology, Chronic Liver Disease and Cirrhosis, Immunization, Liver Disease, Orphan Drug, Infectious Diseases, Prevention, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Good Health and Well Being, Mice, Animals, Carcinoma, Hepatocellular, Liver Neoplasms, Immune Checkpoint Inhibitors, alpha-Fetoproteins, Myeloid Cell Leukemia Sequence 1 Protein, CD8-Positive T-Lymphocytes, Cancer Vaccines, Hepatology, Liver cancer, T cells, Medical and Health Sciences, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Many patients with hepatocellular carcinoma (HCC) do not respond to the first-line immune checkpoint inhibitor treatment. Immunization with effective cancer vaccines is an attractive alternative approach to immunotherapy. However, its efficacy remains insufficiently evaluated in preclinical studies. Here, we investigated HCC-associated self/tumor antigen, α-fetoprotein-based (AFP-based) vaccine immunization for treating AFP (+) HCC mouse models. We found that AFP immunization effectively induced AFP-specific CD8+ T cells in vivo. However, these CD8+ T cells expressed exhaustion markers, including PD1, LAG3, and Tim3. Furthermore, the AFP vaccine effectively prevented c-MYC/Mcl1 HCC initiation when administered before tumor formation, while it was ineffective against full-blown c-MYC/Mcl1 tumors. Similarly, anti-PD1 and anti-PD-L1 monotherapy showed no efficacy in this murine HCC model. In striking contrast, AFP immunization combined with anti-PD-L1 treatment triggered significant inhibition of HCC progression in most liver tumor nodules, while in combination with anti-PD1, it induced slower tumor progression. Mechanistically, we demonstrated that HCC-intrinsic PD-L1 expression was the primary target of anti-PD-L1 in this combination therapy. Notably, the combination therapy had a similar therapeutic effect in the cMet/β-catenin mouse HCC model. These findings suggest that combining the AFP vaccine and immune checkpoint inhibitors may be effective for AFP (+) HCC treatment.

Published

2023

188. Emerging strategies to overcome ovarian cancer: advances in immunotherapy

Author

Tatiana Massariol Pimenta, Josiany Carlos de Souza, Bárbara da Silva Martins, Solenny Maria Silva Butzene, José Matheus Simões Padilha, Milleny Ganho Marçal, Guilherme dos Santos Elias, and Leticia Batista Azevedo Rangel

Subjects

ovarian cancer, immunotherapy, cancer vaccines, CAR-T cell therapy, antibody therapy, Therapeutics. Pharmacology, RM1-950

Abstract

Ovarian cancer is the second most common malignant neoplasm of gynecological origin and the leading cause of death from cancer in the female reproductive system worldwide. This scenario is largely due to late diagnoses, often in advanced stages, and the development of chemoresistance by cancer cells. These challenges highlight the need for alternative treatments, with immunotherapy being a promising option. Cancer immunotherapy involves triggering an anti-tumor immune response and developing immunological memory to eliminate malignant cells, prevent recurrence, and inhibit metastasis. Some ongoing research investigate potentially immunological advancements in the field of cancer vaccines, immune checkpoint blockade, CAR-T cell, and other strategies.

Published

2024

189. 2D Differential Metallic Immunopotentiators Drive High Diversity and Capability of Antigen‐specific Immunity Against Tumor

Author

Hongze Ren, Anqi Zhu, Wei Yang, Yiwen Jia, Hui Cheng, Ye Wu, Zhengqi Tang, Weifan Ye, Mayu Sun, Yujie Xie, Meihua Yu, and Yu Chen

Subjects

2D nanosheets, antigen‐specific immunity, cancer immunotherapy, cancer vaccines, material adjuvants, Science

Abstract

Abstract The therapeutic efficacy of vaccines for treating cancers in clinics remains limited. Here, a rationally designed cancer vaccine by placing immunogenically differential and clinically approved aluminum (Al) or manganese (Mn) in a 2D nanosheet (NS) architecture together with antigens is reported. Structurally optimal NS with a high molar ratio of Mn to Al (MANS‐H) features distinctive immune modulation, markedly promoting the influx of heterogeneous innate immune cells at the injection site. Stimulation of multiple subsets of dendritic cells (DCs) significantly increases the levels, subtypes, and functionalities of antigen‐specific T cells. MANS‐H demonstrates even greater effectiveness in the production of antigen‐specific antibodies than the commercial adjuvant (Alhydrogel) by priming T helper (Th)2 cells rather than T follicular helper (Tfh) cells. Beyond humoral immunity, MANS‐H evokes high frequencies of antigen‐specific Th1 and CD8+ cell immunity, which are comparable with Quil‐A that is widely used in veterinary vaccines. Immunized mice with MANS‐H adjuvanted vaccines exert strong potency in tumor regression by promoting effector T cells infiltrating at tumor and overcoming tumor resistance in multiple highly aggressive tumor models. The engineered immunogen with an intriguing NS architecture and safe immunopotentiators offers the next clinical advance in cancer immunotherapy.

Published

2024

190. Antitumor activity of PAbs generated by immunization with a novel HER3-targeting protein-based vaccine candidate in preclinical models

Author

Ernesto Bermúdez-Abreut, Gretchen Bergado Báez, Melissa Martínez Pestano, Giuseppe Attanasio, Carlos Yordan Gonzales Castillo, Diana Rosa Hernández Fernández, Rydell Alvarez-Arzola, Andrea Alimonti, and Belinda Sánchez-Ramírez

Subjects

HER3, ErbB3, immunotherapy, cancer vaccines, PAbs, antitumor effect, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Despite the cumulative evidence supporting HER3 as a target for antitumor therapies, no agents targeting HER3 have been approved for cancer treatment. Most of the agents evaluated in preclinical and clinical trials have been specific monoclonal antibodies (MAbs), with few examples of active immunotherapy directed against this receptor. However, some cancer vaccine formats may generate polyclonal antibodies (PAbs) that replicate the diverse effector mechanisms of MAbs, including ligand neutralization and receptor degradation. In this study, we developed a protein subunit-based monovalent vaccine candidate targeting the extracellular domain (ECD) of HER3. Immunization of mice with a formulation targeting murine ErbB3-ECD successfully overcome tolerance to this self-antigen, inducing high titers of ErbB3-specific PAbs. The antitumor potential of this formulation and the induced PAbs was demonstrated in vivo and in vitro in an ErbB3-overexpressing 3LL-D122-derived tumor model. The immunogenicity of the HER3-ECD-based vaccine candidate was confirmed by the induction of high titers of HER3-specific PAbs. Consistent with the initial results, HER3-ECD-targeting PAbs were cytotoxic in several human epithelial tumor cell lines and exerted antitumor effects in vivo. These results support the value of HER3 as a tumor antigen and the effector mechanisms of HER3-specific therapeutic MAbs, while suggesting the potential of the proposed vaccine candidate for the treatment of HER3-expressing carcinomas.

Published

2024

191. Exosome-based nanoparticles and cancer immunotherapy

Author

Jiarong Ye, Danni Li, Yiting Jie, Hongliang Luo, Wenjun Zhang, and Cheng Qiu

Subjects

Adoptive T-cell therapy, Co-inhibitory checkpoints, Cancer immunotherapy, Cancer vaccines, Exosome, Nanoparticle, Therapeutics. Pharmacology, RM1-950

Abstract

Over the past decades, cancer immunotherapy has encountered challenges such as immunogenicity, inefficiency, and cytotoxicity. Consequently, exosome-based cancer immunotherapy has gained rapid traction as a promising alternative. Exosomes, a type of extracellular vesicles (EVs) ranging from 50 to 150 nm, are self-originating and exhibit fewer side effects compared to traditional therapies. Exosome-based immunotherapy encompasses three significant areas: cancer vaccination, co-inhibitory checkpoints, and adoptive T-cell therapy. Each of these fields leverages the inherent advantages of exosomes, demonstrating substantial potential for individualized tumor therapy and precision medicine. This review aims to elucidate the reasons behind the promise of exosome-based nanoparticles as cancer therapies by examining their characteristics and summarizing the latest research advancements in cancer immunotherapy.

Published

2024

192. An immunoinformatics approach for a potential NY-ESO-1 and WT1 based multi-epitope vaccine designing against triple-negative breast cancer

Author

Alima Khanam, Hossain Mohammad Hridoy, Md Shahin Alam, Adiba Sultana, and Imtiaj Hasan

Subjects

Triple-negative breast cancer (TNBC), Cancer vaccines, Immunoinformatics, Multiepitope vaccine, Immune response, Antigenic proteins, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Breast cancer emerges as one of the most prevalent malignancies in women, its incidence showing a concerning upward trend. Among the diverse array of breast cancer subtypes, triple-negative breast cancer (TNBC) assumes notable significance, due to lack of estrogen, progesterone, and HER-2 receptors. More focus has to be placed on creating effective therapy due to the high prevalence and rising incidence of TNBC. Currently, conventional passive treatments have several drawbacks that have not yet been resolved. On the other hand, as innovative immunotherapy approaches, cancer vaccines have offered promising prospects in combatting advanced stages of TNBC. Therefore, the main objective of this study was to utilize WT1 and NY-ESO-1 antigenic proteins in designing a multiepitope vaccine against TNBC. Initially, to generate robust immune responses, we identified antigenic epitopes of both proteins and assessed their immunogenicity. In order to reduce junctional immunogenicity, promiscuous epitopes were joined using the suitable adjuvant (50S ribosomal L7/L12 protein) and incorporated appropriate linkers (GPGPG, AAY, and EAAAK). The best predicted 3D model was refined and validated to achieve an excellent 3D model. Molecular docking analysis and dynamic simulation were conducted to demonstrate the structural stability and integrity of the vaccine/TLR-4 complex. Finally, the vaccine was cloned into the vector pET28 (+). Thus, analysis of the constructed vaccine through immunoinformatics indicates its capability to elicit robust humoral and cellular immune responses in the targeted organism. As such, it holds promise as a therapeutic weapon against TNBC and may open doors for further research in the field.

Published

2024

193. Seeing the Future of Lung Cancer Vaccination.

Author

Papavassiliou, Kostas A., Sofianidi, Amalia A., Gogou, Vassiliki A., and Papavassiliou, Athanasios G.

Subjects

*PEPTIDE vaccines, *CLINICAL trials, *NON-small-cell lung carcinoma, *CASTRATION-resistant prostate cancer, *CANCER vaccines, *ANAPLASTIC lymphoma kinase

Abstract

The article discusses the advancements in lung cancer vaccination, highlighting the challenges faced in targeting this disease effectively. It mentions the development of personalized vaccines targeting neoantigens and the use of mRNA technology, such as the BNT116 vaccine, to treat non-small-cell lung cancer. The article also explores the potential of combining vaccines with existing immunotherapies to enhance the immune system's ability to combat cancer cells. Ongoing research aims to reshape the future of lung cancer vaccination, offering hope for improved treatments and potential preventive vaccines in the future. [Extracted from the article]

Published

2024

194. Cellular and Vaccine-Based Immunotherapy for Hematologic Malignancies

Author

Avigan, Zachary M., Boussi, Leora S., Avigan, David E., Rezaei, Nima, Series Editor, Aguiar, Rodrigo, Editorial Board Member, Ahmed, Atif A., Editorial Board Member, Ambrosio, Maria R., Editorial Board Member, Artac, Mehmet, Editorial Board Member, Augustine, Tanya N., Editorial Board Member, Bambauer, Rolf, Editorial Board Member, Bhat, Ajaz Ahmad, Editorial Board Member, Bertolaccini, Luca, Editorial Board Member, Bianchini, Chiara, Editorial Board Member, Cavic, Milena, Editorial Board Member, Chakrabarti, Sakti, Editorial Board Member, Cho, William C. S., Editorial Board Member, Czarnecka, Anna M., Editorial Board Member, Domingues, Cátia, Editorial Board Member, Eşkazan, A. Emre, Editorial Board Member, Fares, Jawad, Editorial Board Member, Fonseca Alves, Carlos E., Editorial Board Member, Fru, Pascaline, Editorial Board Member, Da Gama Duarte, Jessica, Editorial Board Member, García, Mónica C., Editorial Board Member, Gener, Melissa A.H., Editorial Board Member, Estrada Guadarrama, José Antonio, Editorial Board Member, Hargadon, Kristian M., Editorial Board Member, Holvoet, Paul, Editorial Board Member, Jurisic, Vladimir, Editorial Board Member, Kabir, Yearul, Editorial Board Member, Katsila, Theodora, Editorial Board Member, Kleeff, Jorg, Editorial Board Member, Liang, Chao, Editorial Board Member, Tan, Mei Lan, Editorial Board Member, Li, Weijie, Editorial Board Member, Prado López, Sonia, Editorial Board Member, Macha, Muzafar A., Editorial Board Member, Malara, Natalia, Editorial Board Member, Orhan, Adile, Editorial Board Member, Prado-Garcia, Heriberto, Editorial Board Member, Pérez-Velázquez, Judith, Editorial Board Member, Rashed, Wafaa M., Editorial Board Member, Sanguedolce, Francesca, Editorial Board Member, Sorrentino, Rosalinda, Editorial Board Member, Shubina, Irina Zh., Editorial Board Member, de Araujo, Heloisa Sobreiro Selistre, Editorial Board Member, Torres-Suárez, Ana Isabel, Editorial Board Member, Włodarczyk, Jakub, Editorial Board Member, Yeong, Joe Poh Sheng, Editorial Board Member, Toscano, Marta A., Editorial Board Member, Wong, Tak-Wah, Editorial Board Member, Yin, Jun, Editorial Board Member, Yu, Bin, Editorial Board Member, and Hamdy, Nadia M., Editorial Board Member

Published

2024

195. Immunotherapy and Prostate Cancer: Harnessing the Immune System for Treatment

Author

Damane, Botle Precious, Mulaudzi, Thanyani, Motloba, Oratile, Bester, Janette, Demetriou, Demetra, Ledet, Elisa Marie, Dlamini, Zodwa, and Dlamini, Zodwa, editor

Published

2024

196. Approaches to Breast Cancer Immunology and Immunotherapy

Author

Le, Anh D., Nguyen, Huu-Thinh, Dam, Sao-Mai, Rezaei, Nima, Series Editor, Aguiar, Rodrigo, Editorial Board Member, Ahmed, Atif A., Editorial Board Member, Ambrosio, Maria R., Editorial Board Member, Artac, Mehmet, Editorial Board Member, Augustine, Tanya N., Editorial Board Member, Bambauer, Rolf, Editorial Board Member, Bhat, Ajaz Ahmad, Editorial Board Member, Bertolaccini, Luca, Editorial Board Member, Bianchini, Chiara, Editorial Board Member, Cavic, Milena, Editorial Board Member, Chakrabarti, Sakti, Editorial Board Member, Cho, William C. S., Editorial Board Member, Czarnecka, Anna M., Editorial Board Member, Domingues, Cátia, Editorial Board Member, Eşkazan, A. Emre, Editorial Board Member, Fares, Jawad, Editorial Board Member, Fonseca Alves, Carlos E., Editorial Board Member, Fru, Pascaline, Editorial Board Member, Da Gama Duarte, Jessica, Editorial Board Member, García, Mónica C., Editorial Board Member, Gener, Melissa A.H., Editorial Board Member, Estrada Guadarrama, José Antonio, Editorial Board Member, Hargadon, Kristian M., Editorial Board Member, Holvoet, Paul, Editorial Board Member, Jurisic, Vladimir, Editorial Board Member, Kabir, Yearul, Editorial Board Member, Katsila, Theodora, Editorial Board Member, Kleeff, Jorg, Editorial Board Member, Liang, Chao, Editorial Board Member, Tan, Mei Lan, Editorial Board Member, Li, Weijie, Editorial Board Member, Prado López, Sonia, Editorial Board Member, Macha, Muzafar A., Editorial Board Member, Malara, Natalia, Editorial Board Member, Orhan, Adile, Editorial Board Member, Prado-Garcia, Heriberto, Editorial Board Member, Pérez-Velázquez, Judith, Editorial Board Member, Rashed, Wafaa M., Editorial Board Member, Sanguedolce, Francesca, Editorial Board Member, Sorrentino, Rosalinda, Editorial Board Member, Shubina, Irina Zh., Editorial Board Member, de Araujo, Heloisa Sobreiro Selistre, Editorial Board Member, Torres-Suárez, Ana Isabel, Editorial Board Member, Włodarczyk, Jakub, Editorial Board Member, Yeong, Joe Poh Sheng, Editorial Board Member, Toscano, Marta A., Editorial Board Member, Wong, Tak-Wah, Editorial Board Member, Yin, Jun, Editorial Board Member, and Yu, Bin, Editorial Board Member

Published

2024

197. The Promise of Immunotherapeutics and Vaccines in the Treatment of Cancer

Author

Gaur, Amitabh, Chirmule, Narendra, Kumar, Anil, Section editor, Kumar, Deepak, Section editor, Sobti, R. C., editor, Ganguly, Nirmal K., editor, and Kumar, Rakesh, editor

Published

2024

198. Synergistic Potential of Antigen-Specific Vaccines and Immunomodulatory Agents for Lung Cancer Treatment

Author

Venkataramanan, Suresh Krishna, Raman, Nithya Shree, Rangasamy, Karthika, Ganapathy, Sree Gayathri, Arulrajan, Pavithra Vimala, Muralidar, Shibi, Gopal, Gayathri, Ambi, Senthil Visaga, Bhatt, Shvetank, editor, Eri, Rajaraman Eri, editor, Goh, Bey-Hing, editor, Paudel, Keshav Raj, editor, Andreoli Pinto, Terezinha de Jesus, editor, and Dua, Kamal, editor

Published

2024

199. A Phase 2, Double-blind, Randomized Controlled Trial of PROSTVAC in Prostate Cancer Patients on Active Surveillance.

Author

Nguyen, Mike, Kim, Hyung, Gulley, James, Sater, Houssein, Jamieson, Christina, Hsu, Chiu-Hsieh, Wojtowicz, Malgorzata, House, Margaret, Schlom, Jeffrey, Donahue, Renee, Dahut, William, Madan, Ravi, Bailey, Shania, Centuori, Sara, Bauman, Julie, Parnes, Howard, Chow, H-H, Parsons, J, Pinto, Peter, Pavlovich, Christian, and Uchio, Edward

Subjects

Male, Animals, Humans, Prostate-Specific Antigen, Cancer Vaccines, Fowlpox, Watchful Waiting, Prostatic Neoplasms, Disease Progression

Abstract

BACKGROUND: There is an unmet clinical need for interventions to prevent disease progression in patients with localized prostate cancer on active surveillance (AS). OBJECTIVE: To determine the immunologic response to the PROSTVAC vaccine and the clinical indicators of disease progression in patients with localized prostate cancer on AS. DESIGN, SETTING, AND PARTICIPANTS: This was a phase 2, double-blind, randomized controlled trial in 154 men with low- or intermediate-risk prostate cancer on AS. INTERVENTION: Participants were randomized (2:1) to receive seven doses of subcutaneous PROSTVAC, a vaccinia/fowlpox viral vector-based immunotherapy containing a prostate-specific antigen (PSA) transgene and three T-cell co-stimulatory molecules, or an empty fowlpox vector (EV) over 140 d. OUTCOME MEASUREMENTS AND STATISTICAL ANALYSIS: The primary outcome was the change from baseline in CD4 and CD8 T-cell infiltration in biopsy tumor tissue. Key secondary outcomes were safety and changes in prostate biopsy tumor pathology, peripheral antigen-specific T cells, and serum PSA. Continuous variables were compared using nonparametric tests. Categorical variables were compared using Fishers exact test. RESULTS AND LIMITATIONS: The PROSTVAC/EV vaccination was well tolerated. All except one participant completed the vaccination series. Changes in CD4 or CD8 density in biopsy tumor tissue did not differ between the PROSTVAC and EV arms. The proportions of patients with Gleason upgrading to grade group 3 after treatment was similar between the arms. There were no differences in postvaccination peripheral T-cell responses or the PSA change from baseline to 6-mo post-treatment follow-up between the groups. CONCLUSIONS: In this first-of-kind trial of immunotherapy in patients on AS for prostate cancer, PROSTVAC did not elicit more favorable prostate tissue or peripheral T-cell responses than the EV. There was no difference between the arms in clinicopathologic effects. Despite the null findings, this is the first study reporting the feasibility and acceptability of an immunotherapy intervention in the AS setting. PATIENT SUMMARY: We looked at responses after an experimental prostate cancer vaccine in patients with prostate cancer on active surveillance (AS). Participants who received the vaccine did not show more favorable outcomes than those receiving the control. Despite these findings, this is the first report showing the feasibility and acceptability of immunotherapy for prostate cancer in patients on AS.

Published

2023

200. CD73-Dependent Adenosine Signaling through Adora2b Drives Immunosuppression in Ductal Pancreatic Cancer.

Author

Faraoni, Erika Y, Singh, Kanchan, Chandra, Vidhi, Le Roux, Olivereen, Dai, Yulin, Sahin, Ismet, O'Brien, Baylee J, Strickland, Lincoln N, Li, Le, Vucic, Emily, Warner, Amanda N, Pruski, Melissa, Clark, Trent, Van Buren, George, Thosani, Nirav C, Bynon, John S, Wray, Curtis J, Bar-Sagi, Dafna, Poulsen, Kyle L, Vornik, Lana A, Savage, Michelle I, Sei, Shizuko, Mohammed, Altaf, Zhao, Zhongming, Brown, Powel H, Mills, Tingting, Eltzschig, Holger K, McAllister, Florencia, and Bailey-Lundberg, Jennifer M

Subjects

Animals, Humans, Mice, Carcinoma, Pancreatic Ductal, Pancreatic Neoplasms, 5'-Nucleotidase, Adenosine, Cancer Vaccines, Immunotherapy, Tumor Microenvironment, Immunosuppression Therapy, Pancreatic Cancer, Cancer, Rare Diseases, Genetics, Digestive Diseases, 5.1 Pharmaceuticals, Aetiology, Development of treatments and therapeutic interventions, 2.1 Biological and endogenous factors, Oncology and Carcinogenesis, Oncology & Carcinogenesis

Abstract

The microenvironment that surrounds pancreatic ductal adenocarcinoma (PDAC) is profoundly desmoplastic and immunosuppressive. Understanding triggers of immunosuppression during the process of pancreatic tumorigenesis would aid in establishing targets for effective prevention and therapy. Here, we interrogated differential molecular mechanisms dependent on cell of origin and subtype that promote immunosuppression during PDAC initiation and in established tumors. Transcriptomic analysis of cell-of-origin-dependent epithelial gene signatures revealed that Nt5e/CD73, a cell-surface enzyme required for extracellular adenosine generation, is one of the top 10% of genes overexpressed in murine tumors arising from the ductal pancreatic epithelium as opposed to those rising from acinar cells. These findings were confirmed by IHC and high-performance liquid chromatography. Analysis in human PDAC subtypes indicated that high Nt5e in murine ductal PDAC models overlaps with high NT5E in human PDAC squamous and basal subtypes, considered to have the highest immunosuppression and worst prognosis. Multiplex immunofluorescent analysis showed that activated CD8+ T cells in the PDAC tumor microenvironment express high levels of CD73, indicating an opportunity for immunotherapeutic targeting. Delivery of CD73 small-molecule inhibitors through various delivery routes reduced tumor development and growth in genetically engineered and syngeneic mouse models. In addition, the adenosine receptor Adora2b was a determinant of adenosine-mediated immunosuppression in PDAC. These findings highlight a molecular trigger of the immunosuppressive PDAC microenvironment elevated in the ductal cell of origin, linking biology with subtype classification, critical components for PDAC immunoprevention and personalized approaches for immunotherapeutic intervention.SignificanceDuctal-derived pancreatic tumors have elevated epithelial and CD8+GZM+ T-cell CD73 expression that confers sensitivity to small-molecule inhibition of CD73 or Adora2b to promote CD8+ T-cell-mediated tumor regression. See related commentary by DelGiorno, p. 977.

Published

2023