The Glymphatic–Immune Axis in Glioblastoma: Mechanistic Insights and Translational Opportunities
Joaquin Fiallo Arroyo, Jose E. Leon-Rojas

TL;DR
This paper explores how brain fluid dynamics and immune system dysfunction contribute to glioblastoma treatment resistance and highlights new therapeutic strategies.
Contribution
The paper introduces the glymphatic–immune axis as a novel framework for understanding and targeting glioblastoma resistance.
Findings
Dysfunction in the glymphatic system and immune evasion contribute to glioblastoma progression.
New imaging techniques allow in vivo assessment of glymphatic function and interstitial flow.
Combining barrier modulation with immunotherapy and nanomedicine shows promise for overcoming treatment resistance.
Abstract
Glioblastoma (GBM) remains one of the most treatment-resistant human malignancies, largely due to the interplay between disrupted fluid dynamics, immune evasion, and the structural complexity of the tumor microenvironment; in addition to these, treatment resistance is also driven by intratumoral heterogeneity, glioma stem cell persistence, hypoxia-induced metabolic and epigenetic plasticity, adaptive oncogenic signaling, and profound immunosuppression within the tumor microenvironment. Emerging evidence shows that dysfunction of the glymphatic system, mislocalization of aquaporin-4, and increased intracranial pressure compromise cerebrospinal fluid–interstitial fluid exchange and impair antigen drainage to meningeal lymphatics, thereby weakening immunosurveillance. GBM simultaneously remodels the blood–brain barrier into a heterogeneous and permeable blood–tumor barrier that restricts…
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Taxonomy
TopicsCerebrospinal fluid and hydrocephalus · Glioma Diagnosis and Treatment · Brain Metastases and Treatment
