U87 Glioblastoma Cell-Derived Extracellular Vesicle Mediated Dysregulation of Angiogenic Mediators in Endothelial Cells: An In Silico and In Vitro Analysis
Background: Angiogenesis is a key factor necessary for tissue growth but becomes often dysregulated in cancer, driving tumour progression. Glioblastoma multiforme (GBM) induces abnormal vascular remodelling via Hypoxia-activated VEGF, FGF and PDGF. Despite increased vascularization, hypoxia persists...
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| Published in | Neuroglia (Basel, Switzerland) Vol. 6; no. 1; p. 8 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
MDPI AG
01.03.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2571-6980 2571-6980 |
| DOI | 10.3390/neuroglia6010008 |
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| Abstract | Background: Angiogenesis is a key factor necessary for tissue growth but becomes often dysregulated in cancer, driving tumour progression. Glioblastoma multiforme (GBM) induces abnormal vascular remodelling via Hypoxia-activated VEGF, FGF and PDGF. Despite increased vascularization, hypoxia persists, worsening malignancy. Additionally, emerging evidence highlights extracellular vesicles (EVs) as key mediators of angiogenesis as conduits transferring bioactive cargo modulating cellular signaling. By promoting neovascularization, EVs can facilitate tumour growth, hinder drug delivery, and contribute to therapeutic resistance, making them potential therapeutic targets. Objective: This study explores the role of GBM-derived EVs in promoting aberrant angiogenesis by modulating VEGF and MMP signalling and correlating them with EV biogenesis to better understand tumour vascularisation and therapeutic paucities. Methods: This study investigates the role of GBM-derived EVs in angiogenesis dysregulation, via in silico and in vitro approaches, making use of available databases to study the enrichment profiles of key angiogenic drivers enriched in GBM and EVs followed by validation studies using 2D cell culture of HUVEC and U87MG cells on treatment with EV inhibitor. Results: We observed that GBM-derived EVs can be key collaborators of promoting angiogenesis by upregulating key pro-angiogenic genes (VEGFA, NRP1, MMP9) and EV biogenesis markers (CD9, CD81, TSG101), facilitating endothelial cell migration and vascular remodelling. Functional assays further confirmed that EVs act as vectors for pro-angiogenic signals, while their inhibition with GW4869 significantly reduced angiogenic activity, highlighting their role in tumour vascularization. Conclusions: Targeting EV-mediated angiogenesis presents a promising therapeutic strategy for GBM, warranting further validation in preclinical and clinical models. |
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| AbstractList | Background: Angiogenesis is a key factor necessary for tissue growth but becomes often dysregulated in cancer, driving tumour progression. Glioblastoma multiforme (GBM) induces abnormal vascular remodelling via Hypoxia-activated VEGF, FGF and PDGF. Despite increased vascularization, hypoxia persists, worsening malignancy. Additionally, emerging evidence highlights extracellular vesicles (EVs) as key mediators of angiogenesis as conduits transferring bioactive cargo modulating cellular signaling. By promoting neovascularization, EVs can facilitate tumour growth, hinder drug delivery, and contribute to therapeutic resistance, making them potential therapeutic targets. Objective: This study explores the role of GBM-derived EVs in promoting aberrant angiogenesis by modulating VEGF and MMP signalling and correlating them with EV biogenesis to better understand tumour vascularisation and therapeutic paucities. Methods: This study investigates the role of GBM-derived EVs in angiogenesis dysregulation, via in silico and in vitro approaches, making use of available databases to study the enrichment profiles of key angiogenic drivers enriched in GBM and EVs followed by validation studies using 2D cell culture of HUVEC and U87MG cells on treatment with EV inhibitor. Results: We observed that GBM-derived EVs can be key collaborators of promoting angiogenesis by upregulating key pro-angiogenic genes (VEGFA, NRP1, MMP9) and EV biogenesis markers (CD9, CD81, TSG101), facilitating endothelial cell migration and vascular remodelling. Functional assays further confirmed that EVs act as vectors for pro-angiogenic signals, while their inhibition with GW4869 significantly reduced angiogenic activity, highlighting their role in tumour vascularization. Conclusions: Targeting EV-mediated angiogenesis presents a promising therapeutic strategy for GBM, warranting further validation in preclinical and clinical models. |
| Audience | Academic |
| Author | Mukherjee, Swagatama Pillai, Prakash P |
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| SubjectTerms | Cell organelles Development and progression extracellular vesicles Glioblastoma multiforme Health aspects Neovascularization Physiological aspects prediction models |
| Title | U87 Glioblastoma Cell-Derived Extracellular Vesicle Mediated Dysregulation of Angiogenic Mediators in Endothelial Cells: An In Silico and In Vitro Analysis |
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