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Peri-arterial pathways for clearance of α-Synuclein and tau from the brain: Implications for the pathogenesis of dementias and for immunotherapy
Jacqui Nimmo 1, David A Johnston 1, J C Dodart 2, Matthew T MacGregor-Sharp 1, Roy O Weller 1, James A R Nicoll 1, Ajay Verma 2, Roxana O Carare 1
Abstract:
Introduction: Accumulation of amyloid beta (Aβ), α-synuclein (αSyn), and tau in dementias indicates their age-related failure of elimination from the brain. Aβ is eliminated along basement membranes in walls of cerebral arterioles and leptomeningeal arteries (intramural peri-arterial drainage [IPAD]); IPAD is impaired with age. We test the hypothesis that αSyn and tau are also eliminated from the normal brain along IPAD pathways.
Methods: Soluble αSyn or tau was injected into mouse hippocampus. Animals were perfused 5 minutes to 7 days post-injection. Blood vessels were identified by ROX-SE for light-sheet and immunolabeling for confocal microscopy. IPAD was quantified by measuring the proportion of arterioles with αSyn/tau.
Results: αSyn and tau are eliminated from the brain by IPAD but with different dynamics.
Discussion: Age-related failure of IPAD may play a role in the pathogenesis of synucleinopathies and tauopathies. αSyn persists within IPAD at 24 hours, which may affect immunotherapy for αSyn.
Methods: Soluble αSyn or tau was injected into mouse hippocampus. Animals were perfused 5 minutes to 7 days post-injection. Blood vessels were identified by ROX-SE for light-sheet and immunolabeling for confocal microscopy. IPAD was quantified by measuring the proportion of arterioles with αSyn/tau.
Results: αSyn and tau are eliminated from the brain by IPAD but with different dynamics.
Discussion: Age-related failure of IPAD may play a role in the pathogenesis of synucleinopathies and tauopathies. αSyn persists within IPAD at 24 hours, which may affect immunotherapy for αSyn.
PMID: 32782922
Free Full-Text: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7409108/
