Litcius/Paper detail

Modeling alpha-synuclein pathology in a human brain-chip to assess blood-brain barrier disruption

Iosif Pediaditakis, Konstantia Kodella, Dimitris V. Manatakis, Christopher Y. Le, Chris Hinojosa, William Tien-Street, Ηλίας Σ. Μανωλάκος, Kostas Vekrellis, Geraldine A. Hamilton, Lorna Ewart, Lee L. Rubin, Katia Karalis

2021Nature Communications224 citationsDOIOpen Access PDF

Abstract

Parkinson's disease and related synucleinopathies are characterized by the abnormal accumulation of alpha-synuclein aggregates, loss of dopaminergic neurons, and gliosis of the substantia nigra. Although clinical evidence and in vitro studies indicate disruption of the Blood-Brain Barrier in Parkinson's disease, the mechanisms mediating the endothelial dysfunction is not well understood. Here we leveraged the Organs-on-Chips technology to develop a human Brain-Chip representative of the substantia nigra area of the brain containing dopaminergic neurons, astrocytes, microglia, pericytes, and microvascular brain endothelial cells, cultured under fluid flow. Our αSyn fibril-induced model was capable of reproducing several key aspects of Parkinson's disease, including accumulation of phosphorylated αSyn (pSer129-αSyn), mitochondrial impairment, neuroinflammation, and compromised barrier function. This model may enable research into the dynamics of cell-cell interactions in human synucleinopathies and serve as a testing platform for target identification and validation of novel therapeutics.

Topics & Concepts

Substantia nigraSynucleinopathiesNeuroinflammationAlpha-synucleinNeuroscienceBlood–brain barrierDopaminergicParkinson's diseaseHuman brainGliosisMicrogliaBiologyPathologyMedicineDopamineDiseaseInflammationCentral nervous systemImmunologyParkinson's Disease Mechanisms and TreatmentsNeurological disorders and treatmentsAlzheimer's disease research and treatments