Interconnected roles of astrocytes and the blood–brain barrier in Parkinson’s disease: pathological evidence, mechanistic insights, and knowledge gaps
Anna C. Stoll, Ashley S. Harms

TL;DR
This paper explores how astrocytes and the blood-brain barrier contribute to Parkinson's disease, highlighting their interconnected roles and the need for further research.
Contribution
The paper provides new insights into the bidirectional relationship between astrocyte and blood-brain barrier dysfunction in Parkinson's disease.
Findings
Human studies show BBB disruption and astrocytic abnormalities in Parkinson's disease.
Animal models demonstrate that BBB breakdown can precede or parallel dopaminergic loss.
Manipulating astrocytic pathways affects BBB dysfunction, suggesting a bidirectional relationship.
Abstract
Parkinson’s disease (PD) has long been defined by α-synuclein aggregation and dopaminergic neurodegeneration, yet growing evidence indicates that non-neuronal contributors, specifically astrocytes and the blood–brain barrier (BBB), may play key roles in disease progression. Human neuropathological studies reveal BBB disruption and astrocytic abnormalities, including plasma protein extravasation, tight junction alterations, and microvascular degeneration in the substantia nigra and striatum, while neuroimaging and fluid biomarkers such as elevated QAlb, plasma GFAP, and CSF S100B further support in vivo vascular compromise and astrocytic reactivity. Complementary postmortem analyses highlight region- and stage-specific changes in both astrocytes and the vasculature. Mechanistic evidence from animal and cell-based models, including α-synuclein preformed fibrils, transgenic strains, and…
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Taxonomy
TopicsParkinson's Disease Mechanisms and Treatments · Barrier Structure and Function Studies · Alzheimer's disease research and treatments
