Increased immune activation by pathologic alpha‐synuclein in Parkinson's Disease (original) (raw)
Objective: Excessive inflammation in the CNS and the periphery can result in neurodegeneration and parkinsonism. Recent evidence suggests that immune responses in Parkinson"s disease patients are dysregulated, leading to an increased inflammatory reaction to unspecific triggers. Although alpha-synuclein pathology is the hallmark of Parkinson"s disease, it has not been investigated if pathologic alpha-synuclein is a specific trigger for excessive inflammatory responses in Parkinson"s disease. Methods: We investigated the immune response of primary human monocytes and a microglial cell line to pathologic forms of alpha-synuclein by assessing cytokine release upon exposure. Results: We show that pathologic alpha-synuclein (mutations, aggregation) results in a robust inflammatory activation of human monocytes and microglial BV2 cells. The activation is conformation-dependent, with increasing fibrillation and early-onset mutations having the strongest effect on immune activation. We also found that activation of immune cells by extracellular alpha-synuclein is potentiated by extracellular vesicles, possibly by facilitating the uptake of alpha-synuclein. Blood extracellular vesicles from Parkinson"s disease patients induce a stronger activation of monocytes than blood extracellular vesicles from healthy controls. Most importantly, monocytes from Parkinson"s disease patients are dysregulated and hyperactive in response to stimulation with pathologic alpha-synuclein. Furthermore, we demonstrate that α-syn pathology in the CNS is sufficient to induce the monocyte dysregulation in the periphery of a mouse model. Interpretation: Taken together, our data suggests that alpha-synuclein pathology and dysregulation of monocytes in Parkinson"s disease can act together to induce excessive inflammatory responses to alpha-synuclein.
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