Your search keyword '"Frenzel, K."' showing total 184 results

1. Blame it on ... Anesthesia?

Author

Castro-Frenzel K

Published

2024

2. Complementary techniques for the reliable characterisation of tissue samples: A case study on pancreatic tumours analysed by means of X-ray fluorescence analysis and IR spectroscopy.

Author

Frenzel K, Kayser Y, Hornemann A, Kästner B, Hoehl A, Mouratidis P, Rivens I, Ter Haar G, and Beckhoff B

Subjects

Animals, Mice, Spectroscopy, Fourier Transform Infrared methods, Carcinoma, Pancreatic Ductal pathology, Carcinoma, Pancreatic Ductal diagnostic imaging, Pancreatic Neoplasms pathology, Pancreatic Neoplasms diagnostic imaging, Pancreatic Neoplasms radiotherapy, Spectrometry, X-Ray Emission methods

Abstract

An improvement in the reliability and comparability of tissue characterization results is crucial for enabling further progress in cancer detection and the assessment of therapeutic effects. This can only be achieved by integrating quantitative methods into well-established qualitative characterization routines. This case study presents a hybrid metrological approach for tissue characterisation including vibrational Fourier Transform InfraRed (FTIR) spectroscopy and traceable reference-free X-Ray Fluorescence analysis (XRF). Through the combination of spatially resolved qualitative molecular information with quantitative elemental concentrations an all-encompassing sample characterisation can be provided. The study was performed on tissue sections of syngeneic murine pancreatic ductal adenocarcinoma KPC (KrasG12D/+; Trp53R172H/+; Pdx-1-Cre) tumours ex-vivo. Sections from healthy pancreatic tissues, sham-exposed tumours and tumours subjected to low dose radiotherapy treatment (2 Gray and 6 Gray) were analysed using both methods. Additional sample integrity studies using Near Edge X-ray Absorption Fine Structure (NEXAFS) spectroscopy at the carbon and nitrogen K-edges were performed to assess the effect of sample aging and XRF investigations on the samples. Results showed an increase in the concentrations of elemental biomarkers, including S, K and amide I structures in malignant pancreatic tissue compared to healthy pancreatic tissue. The exposure of tumours to 6 Gy radiation decreases the levels of these elements towards a phenotype seen in the healthy pancreas. A protocol for hybrid investigations is presented, with emphasis on the sample preparation, minimizing the impact of consecutive applied methods on their measurands, and ensuring the compatibility and reliability of achieved results. The study demonstrates the cancer recognition capabilities, and the sensitivity for low dosage radiotherapy treatment monitoring for each method individually and assesses the potential of combining molecular fingerprinting with non-destructive quantitative elemental information for tissue sample characterization., Competing Interests: The authors have read the journal’s policy and have the following competing interests: KF, YK, AH, BK, AH, PM, IR, GterH, and BB are employees of EURAMET, European Association of National Metrology Institutes (https://www.euramet.org). PM, IR, and GterH are also employees of Focused Ultrasound Foundation and Pancreatic Cancer UK. This does not alter our adherence to PLOS ONE policies on sharing data and materials. There are no patents, products in development or marketed products associated with this research to declare., (Copyright: © 2024 Frenzel et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

3. Warehouse-based, immunopeptidome-guided design of personalised peptide vaccines shows feasibility in clinical trial evaluation in CLL patients.

Author

Heitmann, Jonas S., Jung, Susanne, Wacker, Marcel, Maringer, Yacine, Nelde, Annika, Bauer, Jens, Denk, Monika, Hoenisch-Gravel, Naomi, Richter, Marion, Oezbek, Melek T., Dubbelaar, Marissa L., Bilich, Tatjana, Pumptow, Marina, Martus, Peter, Illerhaus, Gerald, Denzlinger, Claudio, Steinbach, Francesca, Aulitzky, Walter-Erich, Müller, Martin R., and Dörfel, Daniela

Abstract

Cancer peptide vaccination represents a promising therapeutic approach, but has been hampered by lack of suitable antigens and restricted applicability due to different HLA backgrounds of individual patients. We here introduce a novel warehouse-based concept for composition of personalized peptide vaccines and report on its successful application in a Phase II clinical trial in patients with chronic lymphocytic leukemia (CLL) after first-line therapy. 26 CLL patients in at least partial remission (PR) after 6 months of immuno-chemotherapy were vaccinated with a personalized vaccine compiled from a premanufactured peptide warehouse comprising immunopeptidome-defined CLL-associated peptides. Primary objective was evaluation of immunogenicity, secondary objectives were safety and minimal residual disease (MRD) response. Immunopeptidome-guided vaccine composition was throughout successful, proving the feasibility of warehouse-based vaccine design. Vaccination was well tolerated, with local injection site reactions being the most common adverse event. Only few patients showed vaccine-induced T cell responses, attributable to their inability to mount strong immune responses due to immune-chemotherapy and lack of potent adjuvant formulations. Both issues are addressed within a follow-up trial (NCT04688385), combining the immunopeptidome-guided warehouse-based vaccine design reported here with a potent novel adjuvant evaluating personalized multi- peptide vaccination in CLL patients under T cell supportive BTK inhibitor therapies. Clinical trial registration: www.clinicaltrialsregister.eu , identifier NCT02802943. [ABSTRACT FROM AUTHOR]

Published

2024

4. Current status of precision oncology in adult glioblastoma.

Author

Weller, Johannes, Potthoff, Anna‐Laura, Zeyen, Thomas, Schaub, Christina, Duffy, Cathrina, Schneider, Matthias, and Herrlinger, Ulrich

Published

2024

5. Personalized cancer vaccine design using AI-powered technologies.

Author

Kumar, Anant, Dixit, Shriniket, Srinivasan, Kathiravan, M, Dinakaran, and Vincent, P. M. Durai Raj

Subjects

CANCER vaccines, DATA privacy, DNA vaccines, ALGORITHMIC bias, VACCINE development

Abstract

Immunotherapy has ushered in a new era of cancer treatment, yet cancer remains a leading cause of global mortality. Among various therapeutic strategies, cancer vaccines have shown promise by activating the immune system to specifically target cancer cells. While current cancer vaccines are primarily prophylactic, advancements in targeting tumor-associated antigens (TAAs) and neoantigens have paved the way for therapeutic vaccines. The integration of artificial intelligence (AI) into cancer vaccine development is revolutionizing the field by enhancing various aspect of design and delivery. This review explores how AI facilitates precise epitope design, optimizes mRNA and DNA vaccine instructions, and enables personalized vaccine strategies by predicting patient responses. By utilizing AI technologies, researchers can navigate complex biological datasets and uncover novel therapeutic targets, thereby improving the precision and efficacy of cancer vaccines. Despite the promise of AI-powered cancer vaccines, significant challenges remain, such as tumor heterogeneity and genetic variability, which can limit the effectiveness of neoantigen prediction. Moreover, ethical and regulatory concerns surrounding data privacy and algorithmic bias must be addressed to ensure responsible AI deployment. The future of cancer vaccine development lies in the seamless integration of AI to create personalized immunotherapies that offer targeted and effective cancer treatments. This review underscores the importance of interdisciplinary collaboration and innovation in overcoming these challenges and advancing cancer vaccine development. [ABSTRACT FROM AUTHOR]

Published

2024

6. Neoantigen DNA vaccines are safe, feasible, and induce neoantigen-specific immune responses in triple-negative breast cancer patients.

Author

Zhang, Xiuli, Goedegebuure, S. Peter, Chen, Michael Y., Mishra, Rashmi, Zhang, Felicia, Yu, Yik Yeung, Singhal, Kartik, Li, Lijin, Gao, Feng, Myers, Nancy B., Vickery, Tammi, Hundal, Jasreet, McLellan, Michael D., Sturmoski, Mark A., Kim, Samuel W., Chen, Ina, Davidson 4th, Jesse T., Sankpal, Narendra V., Myles, Stephanie, and Suresh, Rama

Subjects

PATHOLOGY, TRIPLE-negative breast cancer, VACCINE trials, DNA vaccines, VACCINE effectiveness, T cells, ELECTROPORATION

Abstract

Background: Neoantigen vaccines can induce or enhance highly specific antitumor immune responses with minimal risk of autoimmunity. We have developed a neoantigen DNA vaccine platform capable of efficiently presenting both HLA class I and II epitopes and performed a phase 1 clinical trial in triple-negative breast cancer patients with persistent disease on surgical pathology following neoadjuvant chemotherapy, a patient population at high risk of disease recurrence. Methods: Expressed somatic mutations were identified by tumor/normal exome sequencing and tumor RNA sequencing. The pVACtools software suite of neoantigen prediction algorithms was used to identify and prioritize cancer neoantigens and facilitate vaccine design for manufacture in an academic GMP facility. Neoantigen DNA vaccines were administered via electroporation in the adjuvant setting (i.e., following surgical removal of the primary tumor and completion of standard of care therapy). Vaccines were monitored for safety and immune responses via ELISpot, intracellular cytokine production via flow cytometry, and TCR sequencing. Results: Eighteen subjects received three doses of a neoantigen DNA vaccine encoding on average 11 neoantigens per patient (range 4–20). The vaccinations were well tolerated with relatively few adverse events. Neoantigen-specific T cell responses were induced in 14/18 patients as measured by ELISpot and flow cytometry. At a median follow-up of 36 months, recurrence-free survival was 87.5% (95% CI: 72.7–100%) in the cohort of vaccinated patients. Conclusion: Our study demonstrates neoantigen DNA vaccines are safe, feasible, and capable of inducing neoantigen-specific immune responses. Clinical trial registration number: NCT02348320. [ABSTRACT FROM AUTHOR]

Published

2024

7. pVACview: an interactive visualization tool for efficient neoantigen prioritization and selection.

Author

Xia, Huiming, Hoang, My H., Schmidt, Evelyn, Kiwala, Susanna, McMichael, Joshua, Skidmore, Zachary L., Fisk, Bryan, Song, Jonathan J., Hundal, Jasreet, Mooney, Thomas, Walker, Jason R., Goedegebuure, S. Peter, Miller, Christopher A., Gillanders, William E., Griffith, Obi L., and Griffith, Malachi

Subjects

PEPTIDES, CANCER vaccines, RNA sequencing, GENE expression, DATA visualization

Abstract

Background: Neoantigen-targeting therapies including personalized vaccines have shown promise in the treatment of cancers, particularly when used in combination with checkpoint blockade therapy. At least 100 clinical trials involving these therapies have been initiated globally. Accurate identification and prioritization of neoantigens is crucial for designing these trials, predicting treatment response, and understanding mechanisms of resistance. With the advent of massively parallel DNA and RNA sequencing technologies, it is now possible to computationally predict neoantigens based on patient-specific variant information. However, numerous factors must be considered when prioritizing neoantigens for use in personalized therapies. Complexities such as alternative transcript annotations, various binding, presentation and immunogenicity prediction algorithms, and variable peptide lengths/registers all potentially impact the neoantigen selection process. There has been a rapid development of computational tools that attempt to account for these complexities. While these tools generate numerous algorithmic predictions for neoantigen characterization, results from these pipelines are difficult to navigate and require extensive knowledge of the underlying tools for accurate interpretation. This often leads to over-simplification of pipeline outputs to make them tractable, for example, limiting prediction to a single RNA isoform or only summarizing the top ranked of many possible peptide candidates. In addition to variant detection, gene expression, and predicted peptide binding affinities, recent studies have also demonstrated the importance of mutation location, allele-specific anchor locations, and variation of T-cell response to long versus short peptides. Due to the intricate nature and number of salient neoantigen features, presenting all relevant information to facilitate candidate selection for downstream applications is a difficult challenge that current tools fail to address. Results: We have created pVACview, the first interactive tool designed to aid in the prioritization and selection of neoantigen candidates for personalized neoantigen therapies including cancer vaccines. pVACview has a user-friendly and intuitive interface where users can upload, explore, select, and export their neoantigen candidates. The tool allows users to visualize candidates at multiple levels of detail including variant, transcript, peptide, and algorithm prediction information. Conclusions: pVACview will allow researchers to analyze and prioritize neoantigen candidates with greater efficiency and accuracy in basic and translational settings. The application is available as part of the pVACtools software at pvactools.org and as an online server at pvacview.org. [ABSTRACT FROM AUTHOR]

Published

2024

8. Targeting USP11 regulation by a novel lithium-organic coordination compound improves neuropathologies and cognitive functions in Alzheimer transgenic mice.

Author

Guo, Yi, Cai, Chuanbin, Zhang, Bingjie, Tan, Bo, Tang, Qinmin, Lei, Zhifeng, Qi, Xiaolan, Chen, Jiang, Zheng, Xiaojiang, Zi, Dan, Li, Song, and Tan, Jun

Abstract

Alzheimer's Disease (AD), as the most common neurodegenerative disease worldwide, severely impairs patients' cognitive functions. Although its exact etiology remains unclear, the abnormal aggregations of misfolded β-amyloid peptide and tau protein are considered pivotal in its pathological progression. Recent studies identify ubiquitin-specific protease 11 (USP11) as the key regulator of tau deubiquitination, exacerbating tau aggregation and AD pathology. Thereby, inhibiting USP11 function, via either blocking USP11 activity or lowering USP11 protein level, may serve as an effective therapeutic strategy against AD. Our research introduces IsoLiPro, a unique lithium isobutyrate-L-proline coordination compound, effectively lowers USP11 protein level and enhances tau ubiquitination in vitro. Additionally, long-term oral administration of IsoLiPro dramatically reduces total and phosphorylated tau levels in AD transgenic mice. Moreover, IsoLiPro also significantly lessens β-amyloid deposition and synaptic damage, improving cognitive functions in these animal models. These results indicate that IsoLiPro, as a novel small-molecule USP11 inhibitor, can effectively alleviate AD-like pathologies and improve cognitive functions, offering promise as a potential multi-targeting therapeutic agent against AD. Synopsis: In Alzheimer's disease (AD), USP11 interacts with and deubiquitinates tau, leading to its accumulation and accelerating tau pathology. IsoLiPro promotes the ubiquitination and proteolysis of tau protein by inhibiting the expression of USP11, thereby alleviating AD-associated tau pathologies. IsoLiPro, a small molecule inhibitor targeting USP11, was synthesized and demonstrated the ability to enhance tau ubiquitination. Inhibition of USP11 expression by IsoLiPro accelerates tau proteolysis, mitigating AD-associated tau pathology. A significant reduction in β-amyloid deposition was observed in 5xFAD mice treated with IsoLiPro. IsoLiPro improved synaptic integrity and cognitive function in AD model mice. IsoLiPro shows promise as a potential therapeutic agent for AD. In Alzheimer's disease (AD), USP11 interacts with and deubiquitinates tau, leading to its accumulation and accelerating tau pathology. IsoLiPro promotes the ubiquitination and proteolysis of tau protein by inhibiting the expression of USP11, thereby alleviating AD-associated tau pathologies. [ABSTRACT FROM AUTHOR]

Published

2024

9. The Three Pillars of Glioblastoma: A Systematic Review and Novel Analysis of Multi-Omics and Clinical Data.

Author

De Luca, Ciro, Virtuoso, Assunta, Papa, Michele, Cirillo, Giovanni, La Rocca, Giuseppe, Corvino, Sergio, Barbarisi, Manlio, and Altieri, Roberto

Subjects

CANCER stem cells, BRAIN tumors, CENTRAL nervous system, GLIOBLASTOMA multiforme, SURVIVAL rate

Abstract

Glioblastoma is the most fatal and common malignant brain tumor, excluding metastasis and with a median survival of approximately one year. While solid tumors benefit from newly approved drugs, immunotherapy, and prevention, none of these scenarios are opening for glioblastoma. The key to unlocking the peculiar features of glioblastoma is observing its molecular and anatomical features tightly entangled with the host's central nervous system (CNS). In June 2024, we searched the PUBMED electronic database. Data collection and analysis were conducted independently by two reviewers. Results: A total of 215 articles were identified, and 192 were excluded based on inclusion and exclusion criteria. The remaining 23 were used for collecting divergent molecular pathways and anatomical features of glioblastoma. The analysis of the selected papers revealed a multifaced tumor with extreme variability and cellular reprogramming that are observable within the same patient. All the variability of glioblastoma could be clustered into three pillars to dissect the physiology of the tumor: 1. necrotic core; 2. vascular proliferation; 3. CNS infiltration. These three pillars support glioblastoma survival, with a pivotal role of the neurovascular unit, as supported by the most recent paper published by experts in the field. [ABSTRACT FROM AUTHOR]

Published

2024

10. Microglia Signatures: A Cause or Consequence of Microglia-Related Brain Disorders?

Author

Mirarchi, Alessandra, Albi, Elisabetta, and Arcuri, Cataldo

Subjects

GENE expression profiling, ALZHEIMER'S disease, GENE expression, RNA sequencing, MICROGLIA

Abstract

Microglia signatures refer to distinct gene expression profiles or patterns of gene activity that are characteristic of microglia. Advances in gene expression profiling techniques, such as single-cell RNA sequencing, have allowed us to study microglia at a more detailed level and identify unique gene expression patterns that are associated, but not always, with different functional states of these cells. Microglial signatures depend on the developmental stage, brain region, and specific pathological conditions. By studying these signatures, it has been possible to gain insights into the underlying mechanisms of microglial activation and begin to develop targeted therapies to modulate microglia-mediated immune responses in the CNS. Historically, the first two signatures coincide with M1 pro-inflammatory and M2 anti-inflammatory phenotypes. The first one includes upregulation of genes such as CD86, TNF-α, IL-1β, and iNOS, while the second one may involve genes like CD206, Arg1, Chil3, and TGF-β. However, it has long been known that many and more specific phenotypes exist between M1 and M2, likely with corresponding signatures. Here, we discuss specific microglial signatures and their association, if any, with neurodegenerative pathologies and other brain disorders. [ABSTRACT FROM AUTHOR]

Published

2024

11. Bäckerasthma bei der Lakritzherstellung?

Author

Azem, Tara, Sticherling, Michael, Berking, Carola, and Wagner, Nicola

Published

2024

12. Role of T Lymphocytes in Glioma Immune Microenvironment: Two Sides of a Coin.

Author

Noor, Laiba, Upadhyay, Arun, and Joshi, Vibhuti

Subjects

REGULATORY T cells, CYTOTOXIC T cells, MYELOID-derived suppressor cells, T-cell exhaustion, GLIOBLASTOMA multiforme, T cells

Abstract

Simple Summary: Gliomas are diverse types of tumors originating from glial cells. Among these tumors, glioblastoma multiforme (GBM) is the most aggressive form and has a poor prognosis and high mortality rate, with treatment success largely influenced by patient age, tumor location, and genetic mutations. Glioma cells can reprogram their tumor microenvironment (TME) to support tumor proliferation and survival, interacting with other cells through cytokines and growth factors. The TME of gliomas is highly heterogeneous, complex, and often immunosuppressive, interfering with treatment strategies. Current therapeutic strategies focus on modulating immune cell activities and enhancing anti-tumor responses. T-cell-based immunotherapies are being explored to target glioma cells. These include chimeric antigen receptor (CAR) T-cell therapy and T-cell receptor (TCR) therapy, which involve engineering T cells to recognize tumor antigens. However, these therapies face multiple challenges including tumor heterogeneity, immunosuppression by T cell exhaustion, and altered antigen presentation, etc. Future research should focus on boosting T cell functions, targeting immune checkpoints, and developing more effective delivery methods to improve treatment outcomes for glioma patients. Glioma is known for its immunosuppressive microenvironment, which makes it challenging to target through immunotherapies. Immune cells like macrophages, microglia, myeloid-derived suppressor cells, and T lymphocytes are known to infiltrate the glioma tumor microenvironment and regulate immune response distinctively. Among the variety of immune cells, T lymphocytes have highly complex and multifaceted roles in the glioma immune landscape. T lymphocytes, which include CD4+ helper and CD8+ cytotoxic T cells, are known for their pivotal roles in anti-tumor responses. However, these cells may behave differently in the highly dynamic glioma microenvironment, for example, via an immune invasion mechanism enforced by tumor cells. Therefore, T lymphocytes play dual roles in glioma immunity, firstly by their anti-tumor responses, and secondly by exploiting gliomas to promote immune invasion. As an immunosuppression strategy, glioma induces T-cell exhaustion and suppression of effector T cells by regulatory T cells (Tregs) or by altering their signaling pathways. Further, the expression of immune checkpoint inhibitors on the glioma cell surface leads to T cell anergy and dysfunction. Overall, this dynamic interplay between T lymphocytes and glioma is crucial for designing more effective immunotherapies. The current review provides detailed knowledge on the roles of T lymphocytes in the glioma immune microenvironment and helps to explore novel therapeutic approaches to reinvigorate T lymphocytes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Review of Novel Surgical, Radiation, and Systemic Therapies and Clinical Trials in Glioblastoma.

Author

Valerius, Allison R., Webb, Lauren M., Thomsen, Anna, Lehrer, Eric J., Breen, William G., Campian, Jian L., Riviere-Cazaux, Cecile, Burns, Terry C., and Sener, Ugur

Subjects

BRAIN tumors, EXPERIMENTAL design, GLIOBLASTOMA multiforme, GLIOMAS, SURGICAL excision

Abstract

Glioblastoma (GBM) is the most common malignant primary brain tumor in adults. Despite an established standard of care including surgical resection, radiation therapy, and chemotherapy, GBM unfortunately is associated with a dismal prognosis. Therefore, researchers are extensively evaluating avenues to expand GBM therapy and improve outcomes in patients with GBM. In this review, we provide a broad overview of novel GBM therapies that have recently completed or are actively undergoing study in clinical trials. These therapies expand across medical, surgical, and radiation clinical trials. We additionally review methods for improving clinical trial design in GBM. [ABSTRACT FROM AUTHOR]

Published

2024

14. Treatment of Relapsed or Refractory Epstein-Barr Virus Positive T-cell Lymphoma With hNeo-T (GI-hNeoT-01)

Author

Shenzhen University General Hospital

Published

2024

15. Engineered Cancer Nanovaccines: A New Frontier in Cancer Therapy.

Author

Wang, Yijie, Liu, Congrui, Fang, Chao, Peng, Qiuxia, Qin, Wen, Yan, Xuebing, and Zhang, Kun

Subjects

ANTIGEN presentation, ANIMAL experimentation, DENDRITIC cells, CANCER cells, CONTROLLED drugs, T cells, CYTOTOXIC T cells

Abstract

Highlights: We classified the carriers that built cancer nanovaccines, discussed their diversified applications and coincidently compared their advantages and disadvantages. Various cellular targets that guide the design and engineering of cancer nanovaccines are categorized and their characteristics and benefits are highlighted. The clinical cases and encountered challenges in cancer nanovaccines are discussed, during which reasonable solutions and future research direction are provided. Vaccinations are essential for preventing and treating disease, especially cancer nanovaccines, which have gained considerable interest recently for their strong anti-tumor immune capabilities. Vaccines can prompt the immune system to generate antibodies and activate various immune cells, leading to a response against tumor tissues and reducing the negative effects and recurrence risks of traditional chemotherapy and surgery. To enhance the flexibility and targeting of vaccines, nanovaccines utilize nanotechnology to encapsulate or carry antigens at the nanoscale level, enabling more controlled and precise drug delivery to enhance immune responses. Cancer nanovaccines function by encapsulating tumor-specific antigens or tumor-associated antigens within nanomaterials. The small size of these nanomaterials allows for precise targeting of T cells, dendritic cells, or cancer cells, thereby eliciting a more potent anti-tumor response. In this paper, we focus on the classification of carriers for cancer nanovaccines, the roles of different target cells, and clinically tested cancer nanovaccines, discussing strategies for effectively inducing cytotoxic T lymphocytes responses and optimizing antigen presentation, while also looking ahead to the translational challenges of moving from animal experiments to clinical trials. [ABSTRACT FROM AUTHOR]

Published

2024

16. Microglia and macrophages alterations in the CNS during acute SIV infection: A single-cell analysis in rhesus macaques.

Author

Xu, Xiaoke, Niu, Meng, Lamberty, Benjamin G., Emanuel, Katy, Ramachandran, Shawn, Trease, Andrew J., Tabassum, Mehnaz, Lifson, Jeffrey D., and Fox, Howard S.

Subjects

MYELOID cells, SIMIAN immunodeficiency virus, CELL populations, HIV, RHESUS monkeys

Abstract

Human Immunodeficiency Virus (HIV) is widely acknowledged for its profound impact on the immune system. Although HIV primarily affects peripheral CD4 T cells, its influence on the central nervous system (CNS) cannot be overlooked. Within the brain, microglia and CNS-associated macrophages (CAMs) serve as the primary targets for HIV and the simian immunodeficiency virus (SIV) in nonhuman primates. This infection can lead to neurological effects and establish a viral reservoir. Given the gaps in our understanding of how these cells respond in vivo to acute CNS infection, we conducted single-cell RNA sequencing (scRNA-seq) on myeloid cells from the brains of three rhesus macaques 12 days after SIV infection, along with three uninfected controls. Our analysis revealed six distinct microglial clusters including homeostatic microglia, preactivated microglia, and activated microglia expressing high levels of inflammatory and disease-related molecules. In response to acute SIV infection, the homeostatic and preactivated microglia population decreased, while the activated and disease-related microglia increased. All microglial clusters exhibited upregulation of MHC class I molecules and interferon-related genes, indicating their crucial roles in defending against SIV during the acute phase. All microglia clusters also upregulated genes linked to cellular senescence. Additionally, we identified two distinct CAM populations: CD14lowCD16hi and CD14hiCD16low CAMs. Interestingly, during acute SIV infection, the dominant CAM population changed to one with an inflammatory phenotype. Specific upregulated genes within one microglia and one macrophage cluster were associated with neurodegenerative pathways, suggesting potential links to neurocognitive disorders. This research sheds light on the intricate interactions between viral infection, innate immune responses, and the CNS, providing valuable insights for future investigations. Author summary: HIV's entry into the central nervous system (CNS) can lead to neurological dysfunction, including HIV-associated neurocognitive disorders (HAND) and the establishment of a viral reservoir. While microglia and CNS-associated macrophages (CAMs) are the primary targets of HIV in the CNS, their responses during acute HIV infection remain poorly defined. To address this, we employed the scRNA-seq technique to study microglial and CAM populations in rhesus macaques during acute SIV infection. By identifying signature genes associated with different phenotypes and mapping them to various biological and pathological pathways, we discovered two myeloid cell clusters strongly linked to neurodegenerative disorders. Other clusters were associated with inflammatory pathways, suggesting varying degrees of activation among different myeloid cell populations in the brain, possibly mediated by distinct signaling pathways. All microglia clusters developed signs of the cellular senescence pathway. These findings shed light on the immunological and pathological effects of different myeloid phenotypes in the brain during acute SIV infection, providing valuable insights for future therapeutic strategies targeting this critical stage and aiming to eliminate the viral reservoir. [ABSTRACT FROM AUTHOR]

Published

2024

17. Glial-Cell-Line-Derived Neurotrophic Factor Promotes Glioblastoma Cell Migration and Invasion via the SMAD2/3-SERPINE1-Signaling Axis.

Author

Guo, Xiaoxiao, Zhou, Han, Liu, Yifang, Xu, Wei, Kanwore, Kouminin, and Zhang, Lin

Subjects

CELL migration, GLIOBLASTOMA multiforme, PROTEASE inhibitors, PROTEIN expression, PHENOTYPES

Abstract

Glial-cell-line-derived neurotrophic factor (GDNF) is highly expressed and is involved in the malignant phenotype in glioblastomas (GBMs). However, uncovering its underlying mechanism for promoting GBM progression is still a challenging work. In this study, we found that serine protease inhibitor family E member 1 (SERPINE1) was a potential downstream gene of GDNF. Further experiments confirmed that SERPINE1 was highly expressed in GBM tissues and cells, and its levels of expression and secretion were enhanced by exogenous GDNF. SERPINE1 knockdown inhibited the migration and invasion of GBM cells promoted by GDNF. Mechanistically, GDNF increased SERPINE1 by promoting the phosphorylation of SMAD2/3. In vivo experiments demonstrated that GDNF facilitated GBM growth and the expressions of proteins related to migration and invasion via SERPINE1. Collectively, our findings revealed that GDNF upregulated SERPINE1 via the SMAD2/3-signaling pathway, thereby accelerating GBM cell migration and invasion. The present work presents a new mechanism of GDNF, supporting GBM development. [ABSTRACT FROM AUTHOR]

Published

2024

18. When urban poverty becomes a tourist attraction: a systematic review of slum tourism research.

Author

Gui, Tianhan and Zhong, Wei

Subjects

SLUM tourism, TOURISM impact, TOURIST attractions, BIBLIOMETRICS, TOURISM research

Abstract

Over the last two decades, the phenomenon of "slum tourism" and its academic exploration have seen considerable growth. This study presents a systematic literature review of 122 peer-reviewed journal articles, employing a combined approach of bibliometric and content analysis. Our review highlights prominent authors and journals in this domain, revealing that the most cited journals usually focus on tourism studies or geography/urban studies. This reflects a confluence of travel motivations and urban complexities within slum tourism. Through keyword co-occurrence analysis, we identified three primary research areas: the touristic transformation of urban informal settlements, the depiction and valorization of urban poverty, and the socio-economic impacts of slum tourism. This study not only maps the current landscape of research in this area but also identifies existing gaps. It suggests that the economic, social, and cultural effects of slum tourism are areas that require more in-depth investigation in future research endeavors. [ABSTRACT FROM AUTHOR]

Published

2024

19. iVAC-XS15-CLL01: personalized multi-peptide vaccination in combination with the TLR1/2 ligand XS15 in CLL patients undergoing BTK-inhibitor-based regimens.

Author

Englisch, Alexander, Hayn, Clara, Jung, Susanne, Heitmann, Jonas S., Hackenbruch, Christopher, Maringer, Yacine, Nelde, Annika, Wacker, Marcel, Denk, Monika, Zieschang, Lisa, Kammer, Christine, Martus, Peter, Salih, Helmut R., and Walz, Juliane S.

Subjects

BRUTON tyrosine kinase, CHRONIC lymphocytic leukemia, PEPTIDE vaccines, VACCINE immunogenicity, PROTEIN-tyrosine kinase inhibitors

Abstract

Chronic lymphocytic leukemia (CLL) is the most common form of leukemia among adults in Western countries. Despite the introduction of targeted therapies, including first-line Bruton's tyrosine kinase inhibitor (BTKi) treatment, CLL remains largely incurable. Frequent disease relapses occur due to remaining treatment-resistant CLL cells, calling for novel therapies to eliminate minimal residual disease (MRD). Peptide-based vaccination targeting human leucocyte antigen (HLA)-presented CLL-associated antigens represents a promising, low-side-effect therapeutic option to optimize treatment responses and eliminate residual tumor cells by inducing an anti-leukemic immune response. The iVACXS15-CLL01 trial is an open-label, first-in-human (FIH) Phase I trial, evaluating the CLL-VAC-XS15 vaccine in CLL patients undergoing BTKi-based therapy. The vaccine was developed from HLA-presented CLL-associated antigen peptides, identified through comparative mass-spectrometry-based immunopeptidome analyses of CLL versus healthy samples in a previous study. To facilitate rapid and cost-effective deployment, vaccine peptides are selected for each patient from a pre-manufactured "peptide warehouse" based on the patient's individual HLA allotype and CLL immunopeptidome. The trial enrolls 20 CLL patients, who receive up to three doses of the vaccine, adjuvanted with the toll-like-receptor (TLR) 1/2 ligand XS15 and emulsified in Montanide ISA 51 VG. The primary objective of the iVAC-XS15-CLL01 trial is to assess the safety and immunogenicity of the CLL-VAC-XS15 vaccine. Secondary objectives are to Frontiers in evaluate the vaccine impact on MRD, progression-free survival, and overall survival, as well as comprehensive immunophenotyping to characterize vaccine-induced T-cell responses. This Phase I trial aims to advance CLL treatment by enhancing immune-mediated disease clearance and guiding the design of subsequent Phase II/III trials to implement a new therapeutic strategy for CLL patients. [ABSTRACT FROM AUTHOR]

Published

2024

20. Immune response caused by M1 macrophages elicits atrial fibrillation-like phenotypes in coculture model with isogenic hiPSC-derived cardiomyocytes.

Author

Hutschalik, Thomas, Özgül, Ozan, Casini, Marilù, Szabó, Brigitta, Peyronnet, Rémi, Bártulos, Óscar, Argenziano, Mariana, Schotten, Ulrich, and Matsa, Elena

Subjects

GENE expression, INDUCED pluripotent stem cells, ATRIAL arrhythmias, ATRIAL fibrillation, RNA sequencing, ARRHYTHMIA

Abstract

Background: Atrial fibrillation has an estimated prevalence of 1.5–2%, making it the most common cardiac arrhythmia. The processes that cause and sustain the disease are still not completely understood. An association between atrial fibrillation and systemic, as well as local, inflammatory processes has been reported. However, the exact mechanisms underlying this association have not been established. While it is understood that inflammatory macrophages can influence cardiac electrophysiology, a direct, causative relationship to atrial fibrillation has not been described. This study investigated the pro-arrhythmic effects of activated M1 macrophages on human induced pluripotent stem cell (hiPSC)-derived atrial cardiomyocytes, to propose a mechanistic link between inflammation and atrial fibrillation. Methods: Two hiPSC lines from healthy individuals were differentiated to atrial cardiomyocytes and M1 macrophages and integrated in an isogenic, pacing-free, atrial fibrillation-like coculture model. Electrophysiology characteristics of cocultures were analysed for beat rate irregularity, electrogram amplitude and conduction velocity using multi electrode arrays. Cocultures were additionally treated using glucocorticoids to suppress M1 inflammation. Bulk RNA sequencing was performed on coculture-isolated atrial cardiomyocytes and compared to meta-analyses of atrial fibrillation patient transcriptomes. Results: Multi electrode array recordings revealed M1 to cause irregular beating and reduced electrogram amplitude. Conduction analysis further showed significantly lowered conduction homogeneity in M1 cocultures. Transcriptome sequencing revealed reduced expression of key cardiac genes such as SCN5A, KCNA5, ATP1A1, and GJA5 in the atrial cardiomyocytes. Meta-analysis of atrial fibrillation patient transcriptomes showed high correlation to the in vitro model. Treatment of the coculture with glucocorticoids showed reversal of phenotypes, including reduced beat irregularity, improved conduction, and reversed RNA expression profiles. Conclusions: This study establishes a causal relationship between M1 activation and the development of subsequent atrial arrhythmia, documented as irregularity in spontaneous electrical activation in atrial cardiomyocytes cocultured with activated macrophages. Further, beat rate irregularity could be alleviated using glucocorticoids. Overall, these results point at macrophage-mediated inflammation as a potential AF induction mechanism and offer new targets for therapeutic development. The findings strongly support the relevance of the proposed hiPSC-derived coculture model and present it as a first of its kind disease model. [ABSTRACT FROM AUTHOR]

Published

2024

21. Immunotherapeutic advances in glioma management: The rise of vaccine‐based approaches.

Author

Andrew Awuah, Wireko, Shah, Muhammad Hamza, Tan, Joecelyn Kirani, Ranganathan, Sruthi, Sanker, Vivek, Darko, Kwadwo, Tenkorang, Pearl Ohenewaa, Adageba, Bryan Badayelba, Ahluwalia, Arjun, Shet, Vallabh, Aderinto, Nicholas, Kundu, Mrinmoy, Abdul‐Rahman, Toufik, and Atallah, Oday

Subjects

GLIOBLASTOMA multiforme, THERAPEUTICS, VACCINE effectiveness, LANDSCAPE assessment, VACCINATION, BRAIN tumors

Abstract

Background: Gliomas, particularly glioblastoma multiforme (GBM), are highly aggressive brain tumors that present significant challenges in oncology due to their rapid progression and resistance to conventional therapies. Despite advancements in treatment, the prognosis for patients with GBM remains poor, necessitating the exploration of novel therapeutic approaches. One such emerging strategy is the development of glioma vaccines, which aim to stimulate the immune system to target and destroy tumor cells. Aims: This review aims to provide a comprehensive evaluation of the current landscape of glioma vaccine development, analyzing the types of vaccines under investigation, the outcomes of clinical trials, and the challenges and opportunities associated with their implementation. The goal is to highlight the potential of glioma vaccines in advancing more effective and personalized treatments for glioma patients. Materials and Methods: This narrative review systematically assessed the role of glioma vaccines by including full‐text articles published between 2000 and 2024 in English. Databases such as PubMed/MEDLINE, EMBASE, the Cochrane Library, and Scopus were searched using key terms like "glioma," "brain tumor," "glioblastoma," "vaccine," and "immunotherapy." The review incorporated both pre‐clinical and clinical studies, including descriptive studies, animal‐model studies, cohort studies, and observational studies. Exclusion criteria were applied to omit abstracts, case reports, posters, and non‐peer‐reviewed studies, ensuring the inclusion of high‐quality evidence. Results: Clinical trials investigating various glioma vaccines, including peptide‐based, DNA/RNA‐based, whole‐cell, and dendritic‐cell vaccines, have shown promising results. These vaccines demonstrated potential in extending survival rates and managing adverse events in glioma patients. However, significant challenges remain, such as therapeutic resistance due to tumor heterogeneity and immune evasion mechanisms. Moreover, the lack of standardized guidelines for evaluating vaccine responses and issues related to ethical considerations, regulatory hurdles, and vaccine acceptance among patients further complicate the implementation of glioma vaccines. Discussion: Addressing the challenges associated with glioma vaccines involves exploring combination therapies, targeted approaches, and personalized medicine. Combining vaccines with traditional therapies like radiotherapy or chemotherapy may enhance efficacy by boosting the immune system's ability to fight tumor cells. Personalized vaccines tailored to individual patient profiles present an opportunity for improved outcomes. Furthermore, global collaboration and equitable distribution are critical for ensuring access to glioma vaccines, especially in low‐ and middle‐income countries with limited healthcare resources Conclusion: Glioma vaccines represent a promising avenue in the fight against gliomas, offering hope for improving patient outcomes in a disease that is notoriously difficult to treat. Despite the challenges, continued research and the development of innovative strategies, including combination therapies and personalized approaches, are essential for overcoming current barriers and transforming the treatment landscape for glioma patients. [ABSTRACT FROM AUTHOR]

Published

2024

22. At the heart of inflammation: Unravelling cardiac resident macrophage biology.

Author

Liao, Yingnan and Zhu, Liyuan

Subjects

LITERATURE reviews, CAUSES of death, CHEMOKINE receptors, DISEASE progression, MACROPHAGES, CARDIOVASCULAR diseases

Abstract

Cardiovascular disease remains one of the leading causes of death globally. Recent advancements in sequencing technologies have led to the identification of a unique population of macrophages within the heart, termed cardiac resident macrophages (CRMs), which exhibit self‐renewal capabilities and play crucial roles in regulating cardiac homeostasis, inflammation, as well as injury and repair processes. This literature review aims to elucidate the origin and phenotypic characteristics of CRMs, comprehensively outline their contributions to cardiac homeostasis and further summarize their functional roles and molecular mechanisms implicated in the onset and progression of cardiovascular diseases. These insights are poised to pave the way for novel therapeutic strategies centred on targeted interventions based on the distinctive properties of resident macrophages. [ABSTRACT FROM AUTHOR]

Published

2024

23. Stem-like CD8+ T cells in cancer.

Author

Steiner, Chelsea, Denlinger, Nathan, Xiaopei Huang, and Yiping Yang

Subjects

T-cell exhaustion, T cells, IMMUNOLOGIC memory, CELL populations, IMMUNE checkpoint proteins

Abstract

Stem-like CD8+ T cells (TSL) are a subset of immune cells with superior persistence and antitumor immunity. They are TCF1+ PD-1+ and important for the expansion of tumor specific CD8+ T cells in response to checkpoint blockade immunotherapy. In acute infections, naïve CD8+ T cells differentiate into effector and memory CD8+ T cells; in cancer and chronic infections, persistent antigen stimulation can lead to T cell exhaustion. Recent studies have highlighted the dichotomy between late dysfunctional (or exhausted) T cells (TLD) that are TCF1-- PD-1+ and self-renewing TCF1+ PD-1+ TSL from which they derive. TCF1+ TSL cells are considered to have stem cell-like properties akin to memory T cell populations and can give rise to cytotoxic effector and transitory T cell phenotypes (TTE) which mediate tumor control. In this review, we will discuss recent advances made in research on the formation and expansion of TSL, as well as distinct niches required for their differentiation and maintenance in the setting of cancer. We will also discuss potential strategies to generate these cells, with clinical implications for stemness enhancement in vaccine design, immune checkpoint blockade (ICB), and adoptive T cell therapies. [ABSTRACT FROM AUTHOR]

Published

2024

24. Understanding tissue-resident macrophages unlocks the potential for novel combinatorial strategies in breast cancer.

Author

Biswas, Manjusha

Subjects

TRIPLE-negative breast cancer, CYTOTOXIC T cells, DRUG discovery, MAMMARY glands, CANCER cells

Abstract

Tissue-resident macrophages (TRMs) are an integral part of the innate immune system, but their biology is not well understood in the context of cancer. Distinctive resident macrophage populations are identified in different organs in mice using fate mapping studies. They develop from the yolk sac and selfmaintain themselves lifelong in specific tissular niches. Similarly, breast-resident macrophages are part of the mammary gland microenvironment. They reside in the breast adipose tissue stroma and close to the ductal epithelium and help in morphogenesis. In breast cancer, TRMs may promote disease progression and metastasis; however, precise mechanisms have not been elucidated. TRMs interact intimately with recruited macrophages, cytotoxic T cells, and other immune cells along with cancer cells, deciding further immunosuppressive or cytotoxic pathways. Moreover, triple-negative breast cancer (TNBC), which is generally associated with poor outcomes, can harbor specific TRM phenotypes. The influence of TRMs on adipose tissue stroma of the mammary gland also contributes to tumor progression. The complex crosstalk between TRMs with T cells, stroma, and breast cancer cells can establish a cascade of downstream events, understanding which can offer new insight for drug discovery and upcoming treatment choices. This review aims to acknowledge the previous research done in this regard while exploring existing research gaps and the future therapeutic potential of TRMs as a combination or single agent in breast cancer. [ABSTRACT FROM AUTHOR]

Published

2024

25. Slum Tourism: Who Empowers and Who is Empowered?

Author

Rakhman, Cecep Ucu, Sari, Pita Ratna, Putra, Fajar Kusnadi Kusumah, and Suryadana, Mohamad Liga

Subjects

POOR communities, SLUM tourism, TOURIST attractions, SELF-efficacy, PHENOMENOLOGY

Abstract

This study examines how the process of implementing community empowerment for disadvantaged communities through NGOs could be viewed as a tourist attraction in slum tourism. This study used a phenomenological approach and collected data through interviews with four informants. This study emphasises the importance of including community empowerment initiatives led by local community members in slum tourism programmes. The results showed that NGOs play a crucial role in slum tourism. NGOs are considered the empowering entities while disadvantaged communities are considered the empowered entities based on additional studies. NGOs empower marginalised communities to prevent exploitation and enable them to benefit from slum tourism, improving their quality of life. The study emphasises the importance of local community engagement and empowerment in slum tourism, focusing on NGOs as empowering entities. The research highlights the importance of ensuring that slum tourism contributes to the betterment of disadvantaged communities by improving their quality of life rather than exploiting them. [ABSTRACT FROM AUTHOR]

Published

2024

26. Lessons from Post-Immunotherapy Tumor Tissues in Clinical Trials: How Can We Fuel the Tumor Microenvironment in Gliomas?

Author

Phung, Lan Hoc, Nejo, Takahide, and Okada, Hideho

Subjects

TUMOR microenvironment, NEOADJUVANT chemotherapy, GLIOBLASTOMA multiforme, CLINICAL trials, GLIOMAS

Abstract

Despite recent advancements in cancer immunotherapy, many patients with gliomas and glioblastomas have yet to experience substantial therapeutic benefits. Modulating the tumor microenvironment (TME) of gliomas, which is typically "cold", is crucial for improving treatment outcomes. Clinical tumor specimens obtained post-immunotherapy provide invaluable insights. However, access to such post-immunotherapy samples remains limited, even in clinical trials, as tumor tissues are often collected only at tumor relapse. Recent studies of neoadjuvant immunotherapy provided important insights by incorporating surgical resections of post-treatment tumors. Moreover, pre-surgical immunotherapies are increasingly integrated into clinical trial designs to evaluate treatment efficacy. These investigations reveal critical information, particularly regarding the delivery success of therapeutic agents, the expansion and persistence of immune products, and the cellular and molecular changes induced in the TME. In this review, we assess the findings on post-treatment tumor specimens obtained from recent immunotherapy clinical trials on gliomas, highlight the importance of these samples for understanding therapeutic impacts, and discuss proactive investigation approaches for future clinical trials. [ABSTRACT FROM AUTHOR]

Published

2024

27. Tumor Neoepitope-Based Vaccines: A Scoping Review on Current Predictive Computational Strategies.

Author

Rocha, Luiz Gustavo do Nascimento, Guimarães, Paul Anderson Souza, Carvalho, Maria Gabriela Reis, and Ruiz, Jeronimo Conceição

Subjects

RANDOM forest algorithms, CONVOLUTIONAL neural networks, CANCER vaccines, VACCINE development, NUCLEOTIDE sequencing

Abstract

Therapeutic cancer vaccines have been considered in recent decades as important immunotherapeutic strategies capable of leading to tumor regression. In the development of these vaccines, the identification of neoepitopes plays a critical role, and different computational methods have been proposed and employed to direct and accelerate this process. In this context, this review identified and systematically analyzed the most recent studies published in the literature on the computational prediction of epitopes for the development of therapeutic vaccines, outlining critical steps, along with the associated program's strengths and limitations. A scoping review was conducted following the PRISMA extension (PRISMA-ScR). Searches were performed in databases (Scopus, PubMed, Web of Science, Science Direct) using the keywords: neoepitope, epitope, vaccine, prediction, algorithm, cancer, and tumor. Forty-nine articles published from 2012 to 2024 were synthesized and analyzed. Most of the identified studies focus on the prediction of epitopes with an affinity for MHC I molecules in solid tumors, such as lung carcinoma. Predicting epitopes with class II MHC affinity has been relatively underexplored. Besides neoepitope prediction from high-throughput sequencing data, additional steps were identified, such as the prioritization of neoepitopes and validation. Mutect2 is the most used tool for variant calling, while NetMHCpan is favored for neoepitope prediction. Artificial/convolutional neural networks are the preferred methods for neoepitope prediction. For prioritizing immunogenic epitopes, the random forest algorithm is the most used for classification. The performance values related to the computational models for the prediction and prioritization of neoepitopes are high; however, a large part of the studies still use microbiome databases for training. The in vitro/in vivo validations of the predicted neoepitopes were verified in 55% of the analyzed studies. Clinical trials that led to successful tumor remission were identified, highlighting that this immunotherapeutic approach can benefit these patients. Integrating high-throughput sequencing, sophisticated bioinformatics tools, and rigorous validation methods through in vitro/in vivo assays as well as clinical trials, the tumor neoepitope-based vaccine approach holds promise for developing personalized therapeutic vaccines that target specific tumor cancers. [ABSTRACT FROM AUTHOR]

Published

2024

28. The immune response behind peptide vaccination in diffuse midline glioma.

Author

Vincent, Craig A. and Remeseiro, Silvia

Published

2024

29. PNA5, A Novel Mas Receptor Agonist, Improves Neurovascular and Blood-Brain-Barrier Function in a Mouse Model of Vascular Cognitive Impairment and Dementia.

Author

Hoyer-Kimura, Christina, Hay, Meredith, Konhilas, John P., Morrison, Helena W, Methajit, Methawasin, Strom, Joshua, Polt, Robin, Salcedo, Victoria, Fricks, Joshua P., Kalya, Anjna, and Pires, Paulo W.

Subjects

VASCULAR dementia, BLOOD-brain barrier, COGNITION disorders

Abstract

It is well established that decreased brain blood flow, increased reactive oxygen species production (ROS), and pro-inflammatory mechanisms accelerate neurodegenerative disease progressions, including vascular cognitive impairment and dementia (VCID). Previous studies in our laboratory have shown that our novel glycosylated Angiotensin-(1-7) Mas receptor agonist PNA5 reverses cognitive deficits, decreases ROS production, and inhibits inflammatory cytokine production in our preclinical mouse model of VCID that is induced by chronic heart failure (VCID-HF). In the present study, the effects of VCID-HF and treatment with PNA5 on microglia activation, blood-brain-barrier (BBB) integrity, and neurovascular coupling were assessed in our mouse model of VCID-HF. Three-month-old male C57BL/6J mice were subjected to myocardial infarction (MI) to induce heart failure for four weeks and then treated with subcutaneous injections of extended-release PNA5. Microglia activation, BBB permeability, cerebral perfusion, and neurovascular coupling were assessed. Results show that in our VCID-HF model, there was an increase in microglial activation and recruitment within the CA1 and CA3 regions of the hippocampus, a disruption in BBB integrity, and a decrease in neurovascular coupling. Treatment with PNA5 reversed these neuropathological effects of VCID-HF, suggesting that PNA5 may be an effective disease-modifying therapy to treat and prevent VCID. This study identifies potential mechanisms by which heart failure may induce VCID and highlights the possible mechanisms by which treatment with our novel glycosylated Angiotensin-(1-7) Mas receptor agonist, PNA5, may protect cognitive function in our model of VCID. [ABSTRACT FROM AUTHOR]

Published

2024

30. Circulating Liquid Biopsy Biomarkers in Glioblastoma: Advances and Challenges.

Author

Seyhan, Attila A.

Subjects

CIRCULATING tumor DNA, CENTRAL nervous system tumors, CEREBROSPINAL fluid examination, BIOMARKERS, BRAIN tumors, MAGNETIC resonance imaging, BLOOD-brain barrier

Abstract

Gliomas, particularly glioblastoma (GBM), represent the most prevalent and aggressive tumors of the central nervous system (CNS). Despite recent treatment advancements, patient survival rates remain low. The diagnosis of GBM traditionally relies on neuroimaging methods such as magnetic resonance imaging (MRI) or computed tomography (CT) scans and postoperative confirmation via histopathological and molecular analysis. Imaging techniques struggle to differentiate between tumor progression and treatment-related changes, leading to potential misinterpretation and treatment delays. Similarly, tissue biopsies, while informative, are invasive and not suitable for monitoring ongoing treatments. These challenges have led to the emergence of liquid biopsy, particularly through blood samples, as a promising alternative for GBM diagnosis and monitoring. Presently, blood and cerebrospinal fluid (CSF) sampling offers a minimally invasive means of obtaining tumor-related information to guide therapy. The idea that blood or any biofluid tests can be used to screen many cancer types has huge potential. Tumors release various components into the bloodstream or other biofluids, including cell-free nucleic acids such as microRNAs (miRNAs), circulating tumor DNA (ctDNA), circulating tumor cells (CTCs), proteins, extracellular vesicles (EVs) or exosomes, metabolites, and other factors. These factors have been shown to cross the blood-brain barrier (BBB), presenting an opportunity for the minimally invasive monitoring of GBM as well as for the real-time assessment of distinct genetic, epigenetic, transcriptomic, proteomic, and metabolomic changes associated with brain tumors. Despite their potential, the clinical utility of liquid biopsy-based circulating biomarkers is somewhat constrained by limitations such as the absence of standardized methodologies for blood or CSF collection, analyte extraction, analysis methods, and small cohort sizes. Additionally, tissue biopsies offer more precise insights into tumor morphology and the microenvironment. Therefore, the objective of a liquid biopsy should be to complement and enhance the diagnostic accuracy and monitoring of GBM patients by providing additional information alongside traditional tissue biopsies. Moreover, utilizing a combination of diverse biomarker types may enhance clinical effectiveness compared to solely relying on one biomarker category, potentially improving diagnostic sensitivity and specificity and addressing some of the existing limitations associated with liquid biomarkers for GBM. This review presents an overview of the latest research on circulating biomarkers found in GBM blood or CSF samples, discusses their potential as diagnostic, predictive, and prognostic indicators, and discusses associated challenges and future perspectives. [ABSTRACT FROM AUTHOR]

Published

2024

31. Redefining the ontogeny of hyalocytes as yolk sac-derived tissue-resident macrophages of the vitreous body.

Author

Rosmus, Dennis-Dominik, Koch, Jana, Hausmann, Annika, Chiot, Aude, Arnhold, Franz, Masuda, Takahiro, Kierdorf, Katrin, Hansen, Stefanie Marie, Kuhrt, Heidrun, Fröba, Janine, Wolf, Julian, Boneva, Stefaniya, Gericke, Martin, Ajami, Bahareh, Prinz, Marco, Lange, Clemens, and Wieghofer, Peter

Subjects

VITREOUS body, MACROPHAGE colony-stimulating factor, SENSE organs, MYELOID cells, MACROPHAGES

Abstract

Background: The eye is a highly specialized sensory organ which encompasses the retina as a part of the central nervous system, but also non-neural compartments such as the transparent vitreous body ensuring stability of the eye globe and a clear optical axis. Hyalocytes are the tissue-resident macrophages of the vitreous body and are considered to play pivotal roles in health and diseases of the vitreoretinal interface, such as proliferative vitreoretinopathy or diabetic retinopathy. However, in contrast to other ocular macrophages, their embryonic origin as well as the extent to which these myeloid cells might be replenished by circulating monocytes remains elusive. Results: In this study, we combine transgenic reporter mice, embryonic and adult fate mapping approaches as well as parabiosis experiments with multicolor immunofluorescence labeling and confocal laser-scanning microscopy to comprehensively characterize the murine hyalocyte population throughout development and in adulthood. We found that murine hyalocytes express numerous well-known myeloid cell markers, but concomitantly display a distinct immunophenotype that sets them apart from retinal microglia. Embryonic pulse labeling revealed a yolk sac-derived origin of murine hyalocytes, whose precursors seed the developing eye prenatally. Finally, postnatal labeling and parabiosis established the longevity of hyalocytes which rely on Colony Stimulating Factor 1 Receptor (CSF1R) signaling for their maintenance, independent of blood-derived monocytes. Conclusion: Our study identifies hyalocytes as long-living progeny of the yolk sac hematopoiesis and highlights their role as integral members of the innate immune system of the eye. As a consequence of their longevity, immunosenescence processes may culminate in hyalocyte dysfunction, thereby contributing to the development of vitreoretinal diseases. Therefore, myeloid cell-targeted therapies that convey their effects through the modification of hyalocyte properties may represent an interesting approach to alleviate the burden imposed by diseases of the vitreoretinal interface. [ABSTRACT FROM AUTHOR]

Published

2024

32. Exercise rejuvenates microglia and reverses T cell accumulation in the aged female mouse brain.

Author

Chauquet, Solal, Willis, Emily F., Grice, Laura, Harley, Samuel B. R., Powell, Joseph E., Wray, Naomi R., Nguyen, Quan, Ruitenberg, Marc J., Shah, Sonia, and Vukovic, Jana

Subjects

DEVELOPMENTAL neurobiology, MICROGLIA, EXERCISE physiology, CELLULAR aging, MICE, T cells

Abstract

Slowing and/or reversing brain ageing may alleviate cognitive impairments. Previous studies have found that exercise may mitigate cognitive decline, but the mechanisms underlying this remain largely unclear. Here we provide unbiased analyses of single‐cell RNA sequencing data, showing the impacts of exercise and ageing on specific cell types in the mouse hippocampus. We demonstrate that exercise has a profound and selective effect on aged microglia, reverting their gene expression signature to that of young microglia. Pharmacologic depletion of microglia further demonstrated that these cells are required for the stimulatory effects of exercise on hippocampal neurogenesis but not cognition. Strikingly, allowing 18‐month‐old mice access to a running wheel did by and large also prevent and/or revert T cell presence in the ageing hippocampus. Taken together, our data highlight the profound impact of exercise in rejuvenating aged microglia, associated pro‐neurogenic effects and on peripheral immune cell presence in the ageing female mouse brain. [ABSTRACT FROM AUTHOR]

Published

2024

33. 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

34. Macrophages and HLA-Class II Alleles in Multiple Sclerosis: Insights in Therapeutic Dynamics.

Author

Prapas, Petros and Anagnostouli, Maria

Subjects

MAJOR histocompatibility complex, ANTIGEN presenting cells, ALLELES, MYELIN basic protein, MULTIPLE sclerosis, MACROPHAGES, HOMEOSTASIS, ANTIGEN presentation

Abstract

Antigen presentation is a crucial mechanism that drives the T cell-mediated immune response and the development of Multiple Sclerosis (MS). Genetic alterations within the highly variable Major Histocompatibility Complex Class II (MHC II) have been proven to result in significant changes in the molecular basis of antigen presentation and the clinical course of patients with both Adult-Onset MS (AOMS) and Pediatric-Onset MS (POMS). Among the numerous polymorphisms of the Human Leucocyte Antigens (HLA), within MHC II complex, HLA-DRB1*15:01 has been labeled, in Caucasian ethnic groups, as a high-risk allele for MS due to the ability of its structure to increase affinity to Myelin Basic Protein (MBP) epitopes. This characteristic, among others, in the context of the trimolecular complex or immunological synapsis, provides the foundation for autoimmunity triggered by environmental or endogenous factors. As with all professional antigen presenting cells, macrophages are characterized by the expression of MHC II and are often implicated in the formation of MS lesions. Increased presence of M1 macrophages in MS patients has been associated both with progression and onset of the disease, each involving separate but similar mechanisms. In this critical narrative review, we focus on macrophages, discussing how HLA genetic alterations can promote dysregulation of this population's homeostasis in the periphery and the Central Nervous System (CNS). We also explore the potential interconnection in observed pathological macrophage mechanisms and the function of the diverse structure of HLA alleles in neurodegenerative CNS, seen in MS, by comparing available clinical with molecular data through the prism of HLA-immunogenetics. Finally, we discuss available and experimental pharmacological approaches for MS targeting the trimolecular complex that are based on cell phenotype modulation and HLA genotype involvement and try to reveal fertile ground for the potential development of novel drugs. [ABSTRACT FROM AUTHOR]

Published

2024

35. Tourist mobility: sociological theory and implementation practices.

Author

Nikolaienko, Volodymyr

Published

2024

36. Exosomes as drug delivery systems in glioma immunotherapy.

Author

Hao, Xinqing, Wang, Shiming, Wang, Liang, Li, Jiaqi, Li, Ying, and Liu, Jing

Subjects

DRUG delivery systems, GLIOMAS, IMMUNOTHERAPY, EXOSOMES, DRUG carriers, IMMUNE response

Abstract

Recently, the significant benefits of cancer immunotherapy for most cancers have been demonstrated in clinical and preclinical studies. However, the efficacy of these immunotherapies for gliomas is limited, owing to restricted drug delivery and insufficient immune activation. As drug carriers, exosomes offer the advantages of low toxicity, good biocompatibility, and intrinsic cell targeting, which could enhance glioma immunotherapy efficacy. However, a review of exosome-based drug delivery systems for glioma immunotherapy has not been presented. This review introduces the current problems in glioma immunotherapy and the role of exosomes in addressing these issues. Meanwhile, preparation and application strategies of exosome-based drug delivery systems for glioma immunotherapy are discussed, especially for enhancing immunogenicity and reversing the immunosuppressive tumor microenvironment. Finally, we briefly describe the challenges of exosome-based drug delivery systems in clinical translation. We anticipate that this review will guide the use of exosomes as drug carriers for glioma immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

37. Rapid appraisal of liver diseases using transient elastography, abdominal ultrasound, and microbiology in Côte d'Ivoire: A single-center study.

Author

Leibenguth, Marie T., Coulibaly, Jean T., Silué, Kigbafori D., N'Gbesso, Yves K., El Wahed, Ahmed Abd, Utzinger, Jürg, Becker, Sören L., and Schneitler, Sophie

Subjects

LIVER diseases, HEPATIC fibrosis, FATTY liver, DISEASE risk factors, NON-communicable diseases, HEPATITIS B, HEPATITIS C

Abstract

Background: Liver diseases of infectious and non-infectious etiology cause considerable morbidity and mortality, particularly in low- and middle-income countries (LMICs). However, data on the prevalence of liver diseases and underlying risk factors in LMICs are scarce. The objective of this study was to elucidate the occurrence of infectious diseases among individuals with chronic liver damage in a rural setting of Côte d'Ivoire. Methodology: In 2021, we screened 696 individuals from four villages in the southern part of Côte d'Ivoire for hepatic fibrosis and steatosis, employing transient elastography (TE) and controlled attenuation parameter (CAP). We classified CAP ≥248 dB/m as steatosis, TE ≥7.2 kPa as fibrosis, and did subgroup analysis for participants with TE ranging from 7.2 kPa to 9.1 kPa. Clinical and microbiologic characteristics were compared to an age- and sex-matched control group (TE <6.0 kPa; n = 109). Stool samples were subjected to duplicate Kato-Katz thick smears for diagnosis of Schistosoma mansoni. Venous blood samples were examined for hepatitis B and hepatitis C virus. Additionally, an abdominal ultrasound examination was performed. Principal findings: Among 684 individuals with valid TE measurements, TE screening identified hepatic pathologies in 149 participants (17% with fibrosis and 6% with steatosis). 419 participants were included for further analyses, of which 261 had complete microbiological analyses available. The prevalence of S. mansoni, hepatitis B, and hepatitis C were 30%, 14%, and 7%, respectively. Logistic regression analysis revealed higher odds for having TE results between 7.2 kPa and 9.1 kPa in individuals with S. mansoni infection (odds ratio [OR] = 3.02, 95% confidence interval [CI] = 1.58–5.76, P = 0.001), while HCV infection (OR = 5.02, 95% CI = 1.72–14.69, P = 0.003) and steatosis (OR = 4.62, 95% CI = 1.60–13.35, P = 0.005) were found to be risk factors for TE ≥9.2 kPa. Conclusions/Significance: Besides viral hepatitis, S. mansoni also warrants consideration as a pathogen causing liver fibrosis in Côte d'Ivoire. In-depth diagnostic work-up among individuals with abnormal TE findings might be a cost-effective public health strategy. Author summary: At a global scale, chronic liver diseases such as liver fibrosis or cirrhosis are increasing. Causes and risk factors vary from one setting to another. In Europe, alcohol abuse, viral hepatitis, and fatty liver disease are the leading causes. Neglected tropical diseases, especially infections with parasites such as Schistosoma mansoni, are known to cause liver damage in low- and middle-income countries. Precise data on the relevance of infections with S. mansoni compared to other causes of liver fibrosis are scarce. In this study, we aimed to elucidate the infectious diseases etiology of chronic liver diseases in a schistosomiasis-endemic setting of Côte d'Ivoire. We screened residents from four villages in the southern part of Côte d'Ivoire with transient elastography, a non-invasive method that detects liver fibrosis or -cirrhosis by liver stiffness. Participants were tested for schistosomiasis and viral hepatitis, and a questionnaire was used to collect sociodemographic data. We found that liver fibrosis was common (17%), with S. mansoni being the most detected pathogen (30%). Liver diseases have a high morbidity and mortality, resulting in liver cancer or gastrointestinal haemorrhage. Schistosomiasis and hepatitis C, in particular, can be treated effectively today, so a screening program with transient elastography and subsequent treatment could prevent complications of liver disease. [ABSTRACT FROM AUTHOR]

Published

2024

38. Targeted agents in patients with progressive glioblastoma—A systematic meta‐analysis of randomized clinical trials.

Author

Ippen, Franziska Maria, Scherm, Angelika, Kessler, Tobias, Hau, Peter, Agkatsev, Sarina, Baurecht, Hansjörg, Wick, Wolfgang, Knüttel, Helge, Leitzmann, Michael F., and Seliger‐Behme, Corinna

Subjects

CLINICAL trials, BRAIN tumors, GLIOBLASTOMA multiforme, OVERALL survival, PROGRESSION-free survival, PROGNOSIS

Abstract

Background: Glioblastoma (GB) is the most common malignant primary brain tumor in adults and is associated with a poor prognosis. Current treatment guidelines outline the standard of care for patients with newly diagnosed GB; however, there is currently no well‐established consensus for the treatment of progressive GB. With this systematic meta‐analysis of recently published randomized controlled trials (RCTs), we aim to establish evidence on targeted agents in the treatment of patients with progressive GB. Material and Methods: We conducted searches across the Cochrane Library, Pubmed, MEDLINE (Ovid), ClinicalTrials.gov, WHO's International Clinical Trials Registry Platform and Google Scholar, encompassing the time span from 1954 to 2022, aiming to identify RCTs evaluating targeted therapies in patients with progressive GB. In order to perform a random‐effects meta‐analysis, we extracted hazard ratios (HRs) of overall survival (OS) and progression‐free survival (PFS). Results: We included 16 RCTs (n = 3025 patients) in the systematic meta‐analysis. Formally, regorafenib (RR 0.50; 95% CI 0.33–0.75), Depatux‐M + TMZ (RR 0.66; 95% CI 0.47–0.93) and rindopepimut + bevacizumab (RR 0.53; 95% CI 0.32–0.88) were associated with an improved OS compared to the control arm. The combination of bevacizumab + CCNU (RR = 0.49; 95% CI 0.35–0.69) and regorafenib (RR 0.65; 95% CI 0.44–0.95) were formally associated with improved PFS. Conclusions: The aim of this systematic meta‐analysis was to establish evidence for the use of targeted therapies in progressive GB. While some studies demonstrated benefits for OS and/or PFS, those results have to be interpreted with caution as most studies had major methodological weaknesses, including potential differences in sample size, trial design, or the initial distribution of prognostic factors. [ABSTRACT FROM AUTHOR]

Published

2024

39. From mechanism to therapy: the journey of CD24 in cancer.

Author

Kai Zhao, Caifeng Wu, Xiangjun Li, Mengchao Niu, Dan Wu, Xiaofeng Cui, and Hai Zhao

Subjects

CLINICAL medicine, CELL adhesion, TUMOR growth, CANCER treatment, CARCINOGENESIS

Abstract

CD24 is a glycosylphosphatidylinositol-anchored protein that is expressed in a wide range of tissues and cell types. It is involved in a variety of physiological and pathological processes, including cell adhesion, migration, differentiation, and apoptosis. Additionally, CD24 has been studied extensively in the context of cancer, where it has been found to play a role in tumor growth, invasion, and metastasis. In recent years, there has been growing interest in CD24 as a potential therapeutic target for cancer treatment. This review summarizes the current knowledge of CD24, including its structure, function, and its role in cancer. Finally, we provide insights into potential clinical application of CD24 and discuss possible approaches for the development of targeted cancer therapies. [ABSTRACT FROM AUTHOR]

Published

2024

40. Microglia and infiltrating macrophages in ictogenesis and epileptogenesis.

Author

Bröer, Sonja and Pauletti, Alberto

Subjects

MICROGLIA, MACROPHAGES, PHAGOCYTES, EPILEPSY, MONOCYTES, SUDDEN death

Abstract

Phagocytes maintain homeostasis in a healthy brain. Upon injury, they are essential for repairing damaged tissue, recruiting other immune cells, and releasing cytokines as the first line of defense. However, there seems to be a delicate balance between the beneficial and detrimental effects of their activation in a seizing brain. Blocking the infiltration of peripheral phagocytes (macrophages) or their depletion can partially alleviate epileptic seizures and prevent the death of neurons in experimental models of epilepsy. However, the depletion of resident phagocytes in the brain (microglia) can aggravate disease outcomes. This review describes the role of resident microglia and peripheral infiltrating monocytes in animal models of acutely triggered seizures and epilepsy. Understanding the roles of phagocytes in ictogenesis and the time course of their activation and involvement in epileptogenesis and disease progression can offer us new biomarkers to identify patients at risk of developing epilepsy after a brain insult, as well as provide novel therapeutic targets for treating epilepsy. [ABSTRACT FROM AUTHOR]

Published

2024

41. Dissecting and Visualizing the Functional Diversity of Cardiac Macrophages.

Author

Holt, Megan, Lin, Julia, Cicka, Markus, Wong, Anthony, Epelman, Slava, and Lavine, Kory J.

Published

2024

42. The Multifaceted Nature of Macrophages in Cardiovascular Disease.

Author

Li, Cindy X. and Yue, Lixia

Subjects

MACROPHAGES, HEART failure, HEART diseases, CARDIOVASCULAR diseases, VASCULAR diseases, CELL populations, DISEASE progression

Abstract

As the leading cause of mortality worldwide, cardiovascular disease (CVD) represents a variety of heart diseases and vascular disorders, including atherosclerosis, aneurysm, ischemic injury in the heart and brain, arrythmias, and heart failure. Macrophages, a diverse population of immune cells that can promote or suppress inflammation, have been increasingly recognized as a key regulator in various processes in both healthy and disease states. In healthy conditions, these cells promote the proper clearance of cellular debris, dead and dying cells, and provide a strong innate immune barrier to foreign pathogens. However, macrophages can play a detrimental role in the progression of disease as well, particularly those inflammatory in nature. This review will focus on the current knowledge regarding the role of macrophages in cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2024

43. Profiling of Tumor-Infiltrating Immune Cells and Their Impact on Survival in Glioblastoma Patients Undergoing Immunotherapy with Dendritic Cells.

Author

Peres, Nataly, Lepski, Guilherme A., Fogolin, Carla S., Evangelista, Gabriela C. M., Flatow, Elizabeth A., de Oliveira, Jaqueline V., Pinho, Mariana P., Bergami-Santos, Patricia C., and Barbuto, José A. M.

Subjects

TUMOR-infiltrating immune cells, DENDRITIC cells, OVERALL survival, PROGNOSIS, CELL survival, IMMUNOTHERAPY

Abstract

Glioblastomas (GBM) are the most common primary malignant brain tumors, comprising 2% of all cancers in adults. Their location and cellular and molecular heterogeneity, along with their highly infiltrative nature, make their treatment challenging. Recently, our research group reported promising results from a prospective phase II clinical trial involving allogeneic vaccination with dendritic cells (DCs). To date, six out of the thirty-seven reported cases remain alive without tumor recurrence. In this study, we focused on the characterization of infiltrating immune cells observed at the time of surgical resection. An analytical model employing a neural network-based predictive algorithm was used to ascertain the potential prognostic implications of immunological variables on patients' overall survival. Counterintuitively, immune phenotyping of tumor-associated macrophages (TAMs) has revealed the extracellular marker PD-L1 to be a positive predictor of overall survival. In contrast, the elevated expression of CD86 within this cellular subset emerged as a negative prognostic indicator. Fundamentally, the neural network algorithm outlined here allows a prediction of the responsiveness of patients undergoing dendritic cell vaccination in terms of overall survival based on clinical parameters and the profile of infiltrated TAMs observed at the time of tumor excision. [ABSTRACT FROM AUTHOR]

Published

2024

44. Pericytes Are Immunoregulatory Cells in Glioma Genesis and Progression.

Author

Martinez-Morga, Marta, Garrigos, Daniel, Rodriguez-Montero, Elena, Pombero, Ana, Garcia-Lopez, Raquel, and Martinez, Salvador

Subjects

PERICYTES, GLIOMAS, IMMUNOCOMPETENT cells, TUMOR growth, GLIOBLASTOMA multiforme, T cells

Abstract

Vascular co-option is a consequence of the direct interaction between perivascular cells, known as pericytes (PCs), and glioblastoma multiforme (GBM) cells (GBMcs). This process is essential for inducing changes in the pericytes' anti-tumoral and immunoreactive phenotypes. Starting from the initial stages of carcinogenesis in GBM, PCs conditioned by GBMcs undergo proliferation, acquire a pro-tumoral and immunosuppressive phenotype by expressing and secreting immunosuppressive molecules, and significantly hinder the activation of T cells, thereby facilitating tumor growth. Inhibiting the pericyte (PC) conditioning mechanisms in the GBM tumor microenvironment (TME) results in immunological activation and tumor disappearance. This underscores the pivotal role of PCs as a key cell in the TME, responsible for tumor-induced immunosuppression and enabling GBM cells to evade the immune system. Other cells within the TME, such as tumor-associated macrophages (TAMs) and microglia, have also been identified as contributors to this immunomodulation. In this paper, we will review the role of these three cell types in the immunosuppressive properties of the TME. Our conclusion is that the cellular heterogeneity of immunocompetent cells within the TME may lead to the misinterpretation of cellular lineage identification due to different reactive stages and the identification of PCs as TAMs. Consequently, novel therapies could be developed to disrupt GBM-PC interactions and/or PC conditioning through vascular co-option, thereby exposing GBMcs to the immune system. [ABSTRACT FROM AUTHOR]

Published

2024

45. Refined analytical pipeline for the pharmacodynamic assessment of T-cell responses to vaccine antigens.

Author

Pavlidis, Michail Angelos, Viborg, Nadia, Lausen, Mads, Rønø, Birgitte, and Kleine-Kohlbrecher, Daniela

Subjects

MONONUCLEAR leukocytes, VACCINE effectiveness, T cells, VIRAL antigens, ANTIGENS

Abstract

Pharmacodynamic assessment of T-cell-based cancer immunotherapies often focus on detecting rare circulating T-cell populations. The therapy-induced immune cells in blood-derived clinical samples are often present in very low frequencies and with the currently available T-cell analytical assays, amplification of the cells of interest prior to analysis is often required. Current approaches aiming to enrich antigen-specific T cells from human Peripheral Blood Mononuclear Cells (PBMCs) depend on in vitro culturing in presence of their cognate peptides and cytokines. In the present work, we improved a standard, publicly available protocol for T-cell immune analyses based on the in vitro expansion of T cells. We used PBMCs from healthy subjects and well-described viral antigens as a model system for optimizing the experimental procedures and conditions. Using the standard protocol, we first demonstrated significant enrichment of antigen-specific T cells, even when their starting frequency ex vivo was low. Importantly, this amplification occurred with high specificity, with no or neglectable enrichment of irrelevant T-cell clones being observed in the cultures. Testing of modified culturing timelines suggested that the protocol can be adjusted accordingly to allow for greater cell yield with strong preservation of the functionality of antigen-specific T cells. Overall, our work has led to the refinement of a standard protocol for in vitro stimulation of antigen-specific T cells and highlighted its reliability and reproducibility. We envision that the optimized protocol could be applied for longitudinal monitoring of rare bloodcirculating T cells in scenarios with limited sample material. [ABSTRACT FROM AUTHOR]

Published

2024

46. The top 100 most cited articles in the past 30 years of wheat allergy: a bibliometric analysis.

Author

Mengyuan Zhan, Yibo Hou, Liping Wen, and Tengda Xu

Subjects

BIBLIOMETRICS, EXERCISE-induced anaphylaxis, WHEAT, ALLERGIES, WHEAT proteins, WHEAT breeding

Abstract

Background: Wheat allergy (WA), characterized by immunological responses to wheat proteins, is a gluten-related disorder that has become increasingly recognized in recent years. Bibliometrics involves the quantitative assessment of publications within a specific academic domain. Objectives: We aimed to execute an extensive bibliometric study, focusing on the past 30 years of literature related to wheat allergy. Methods: We searched the Web of Science database on 5th Dec 2023. We used the KEYWORDS: "wheat allergy or wheat anaphylaxis or wheat hypersensitivity," "gliadin allergy or gliadin anaphylaxis or gliadin hypersensitivity," "wheatdependent exercise-induced anaphylaxis," and "baker's asthma" for our search. All items published between 1993 and 2023 were included. The top 100 most cited articles were identified and analyzed. Results: Our study conducted an in-depth bibliometric analysis of the 100 mostcited articles in the field of wheat allergy, published between 2002 and 2019. These articles originated from 20 different countries, predominantly Japan and Germany. The majority of these articles were centered on the pathogenesis and treatment of wheat allergy (WA). The Journal of Allergy and Clinical Immunology (JACI) was the most prolific contributor to this list, publishing 14 articles. The article with the highest citation count was published by Biomed Central (BMC) and garnered 748 citations. The peak citation year was 2015, with a total of 774 citations, while the years 1998, 2001, and 2005 saw the highest publication frequency, each with 7 articles. Conclusion: Our study aims to provide physicians and researchers with a historical perspective for the scientific progress of wheat allergy, and help clinicians effectively obtain useful articles that have a significant impact on the field of wheat allergy. [ABSTRACT FROM AUTHOR]

Published

2024

47. Current Trends in Vaccine Development for Hereditary Colorectal Cancer Syndromes.

Author

Bowen, Charles M., Sinha, Krishna M., and Vilar, Eduardo

Abstract

The coming of age for cancer treatment has experienced exponential growth in the last decade with the addition of immunotherapy as the fourth pillar to the fundamentals of cancer treatment—chemotherapy, surgery, and radiation—taking oncology to an astounding new frontier. In this time, rapid developments in computational biology coupled with immunology have led to the exploration of priming the host immune system through vaccination to prevent and treat certain subsets of cancer such as melanoma and hereditary colorectal cancer. By targeting the immune system through tumor-specific antigens—namely, neoantigens (neoAgs)—the future of cancer prevention may lie within arm's reach by employing neoAg vaccines as an immune-preventive modality for hereditary cancer syndromes like Lynch syndrome. In this review, we discuss the history, current trends, utilization, and future direction of neoAg-based vaccines in the setting of hereditary colorectal cancer. [ABSTRACT FROM AUTHOR]

Published

2024

48. Immune Checkpoint Inhibitors and Glioblastoma: A Review on Current State and Future Directions.

Author

Ser, Merve Hazal, Webb, Mason J., Sener, Ugur, and Campian, Jian L.

Subjects

GLIOBLASTOMA multiforme treatment, IMMUNE checkpoint inhibitors, SURVIVAL rate, IMMUNOSUPPRESSION, CANCER chemotherapy

Abstract

Glioblastoma (GBM) is the most prevalent malignant tumor of the central nervous system. The prognosis of GBM is grim, with a median overall survival of 14.6 months and only 6.9% of patients surviving 5 years after the initial diagnosis. Despite poor outcomes, standard therapy of surgical resection, radiotherapy, chemotherapy, and tumor-treating fields has remained largely unchanged. The introduction of immune checkpoint inhibitors (ICI) has been a paradigm shift in oncology, with efficacy across a broad spectrum of cancer types. Nonetheless, investigations of ICIs in both newly diagnosed and recurrent GBM have thus far been disappointing. This lack of clinical benefit has been largely attributed to the highly immunosuppressive nature of GBM. However, immunotherapy still holds promise for the treatment of GBM, with combinatorial strategies offering hope for potentially overcoming these current limitations. In this review, we discuss the outcomes of clinical trials employing ICIs in patients with GBM. Afterward, we review ICI combination strategies and how these combinations may overcome the immunosuppressive microenvironment of GBM in the context of preclinical/clinical evidence and ongoing clinical trials. [ABSTRACT FROM AUTHOR]

Published

2024

49. Neoantigen Identification and Dendritic Cell-Based Vaccines for Lung Cancer Immunotherapy.

Author

Kumari, Komal, Singh, Amarnath, Chaudhary, Archana, Singh, Rakesh Kumar, Shanker, Asheesh, Kumar, Vinay, and Haque, Rizwanul

Subjects

LUNG cancer, CANCER vaccines, IMMUNOTHERAPY, MAJOR histocompatibility complex, RNA splicing

Abstract

Immunotherapies can treat many cancers, including difficult-to-treat cases such as lung cancer. Due to its tolerability, long-lasting therapeutic responses, and efficacy in a wide spectrum of patients, immunotherapy can also help to treat lung cancer, which has few treatment choices. Tumor-specific antigens (TSAs) for cancer vaccinations and T-cell therapies are difficult to discover. Neoantigens (NeoAgs) from genetic mutations, irregular RNA splicing, protein changes, or viral genetic sequences in tumor cells provide a solution. NeoAgs, unlike TSAs, are non-self and can cause an immunological response. Next-generation sequencing (NGS) and bioinformatics can swiftly detect and forecast tumor-specific NeoAgs. Highly immunogenic NeoAgs provide personalized or generalized cancer immunotherapies. Dendritic cells (DCs), which originate and regulate T-cell responses, are widely studied potential immunotherapeutic therapies for lung cancer and other cancers. DC vaccines are stable, reliable, and safe in clinical trials. The purpose of this article is to evaluate the current status, limitations, and prospective clinical applications of DC vaccines, as well as the identification and selection of major histocompatibility complex (MHC) class I and II genes for NeoAgs. Our goal is to explain DC biology and activate DC manipulation to help researchers create extremely potent cancer vaccines for patients. [ABSTRACT FROM AUTHOR]

Published

2024

50. CNS Resident Innate Immune Cells: Guardians of CNS Homeostasis.

Author

Muzio, Luca and Perego, Jessica

Subjects

CHOROID plexus, HOMEOSTASIS, RNA sequencing, MASS spectrometry, MULTIPLE sclerosis, IMMUNOPHENOTYPING, MENINGES

Abstract

Although the CNS has been considered for a long time an immune-privileged organ, it is now well known that both the parenchyma and non-parenchymal tissue (meninges, perivascular space, and choroid plexus) are richly populated in resident immune cells. The advent of more powerful tools for multiplex immunophenotyping, such as single-cell RNA sequencing technique and upscale multiparametric flow and mass spectrometry, helped in discriminating between resident and infiltrating cells and, above all, the different spectrum of phenotypes distinguishing border-associated macrophages. Here, we focus our attention on resident innate immune players and their primary role in both CNS homeostasis and pathological neuroinflammation and neurodegeneration, two key interconnected aspects of the immunopathology of multiple sclerosis. [ABSTRACT FROM AUTHOR]

Published

2024