The Potential of Dendritic Cell Subsets in the Development of Personalized Immunotherapy for Cancer Treatment

Gorodilova, Anna Valerevna; Kitaeva, Kristina Viktorovna; Filin, Ivan Yurevich; Mayasin, Yuri Pavlovich; Kharisova, Chulpan Bulatovna; Issa, Shaza S.; Solovyeva, Valeriya Vladimirovna; Rizvanov, Albert Anatolyevich

doi:10.3390/cimb45100509

CIMB

2023

DOI: 10.3390/cimb45100509

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The Potential of Dendritic Cell Subsets in the Development of Personalized Immunotherapy for Cancer Treatment

Anna Valerevna Gorodilova,

Kristina Viktorovna Kitaeva,

Ivan Yurevich Filin

et al.

Abstract: Since the discovery of dendritic cells (DCs) in 1973 by Ralph Steinman, a tremendous amount of knowledge regarding these innate immunity cells has been accumulating. Their role in regulating both innate and adaptive immune processes is gradually being uncovered. DCs are proficient antigen-presenting cells capable of activating naive T-lymphocytes to initiate and generate effective anti-tumor responses. Although DC-based immunotherapy has not yielded significant results, the substantial number of ongoing clinic… Show more

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2024

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Cited by 2 publications

References 117 publications

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Dendritic cell-derived exosomes (Dex): Underlying the role of exosomes derived from diverse DC subtypes in cancer pathogenesis

Tuluwengjiang,

Rasulova,

Ahmed

et al. 2024

Pathology - Research and Practice

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Dendritic cell-derived exosomes (Dex): Underlying the role of exosomes derived from diverse DC subtypes in cancer pathogenesis

Tuluwengjiang,

Rasulova,

Ahmed

et al. 2024

Pathology - Research and Practice

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Recent Treatment Strategies and Molecular Pathways in Resistance Mechanisms of Antiangiogenic Therapies in Glioblastoma

Rahman,

Ali

2024

Cancers

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Malignant gliomas present great difficulties in treatment, with little change over the past 30 years in the median survival time of 15 months. Current treatment options include surgery, radiotherapy (RT), and chemotherapy. New therapies aimed at suppressing the formation of new vasculature (antiangiogenic treatments) or destroying formed tumor vasculature (vascular disrupting agents) show promise. This study summarizes the existing knowledge regarding the processes by which glioblastoma (GBM) tumors acquire resistance to antiangiogenic treatments. The discussion encompasses the activation of redundant proangiogenic pathways, heightened tumor cell invasion and metastasis, resistance induced by hypoxia, creation of vascular mimicry channels, and regulation of the tumor immune microenvironment. Subsequently, we explore potential strategies to overcome this resistance, such as combining antiangiogenic therapies with other treatment methods, personalizing treatments for each patient, focusing on new therapeutic targets, incorporating immunotherapy, and utilizing drug delivery systems based on nanoparticles. Additionally, we would like to discuss the limitations of existing methods and potential future directions to enhance the beneficial effects of antiangiogenic treatments for patients with GBM. Therefore, this review aims to enhance the research outcome for GBM and provide a more promising opportunity by thoroughly exploring the mechanisms of resistance and investigating novel therapeutic strategies.

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The Potential of Dendritic Cell Subsets in the Development of Personalized Immunotherapy for Cancer Treatment

Cited by 2 publications

References 117 publications

Dendritic cell-derived exosomes (Dex): Underlying the role of exosomes derived from diverse DC subtypes in cancer pathogenesis

Dendritic cell-derived exosomes (Dex): Underlying the role of exosomes derived from diverse DC subtypes in cancer pathogenesis

Recent Treatment Strategies and Molecular Pathways in Resistance Mechanisms of Antiangiogenic Therapies in Glioblastoma

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