Heather McCann scite author profile

α-Synucleinopathies are neurodegenerative diseases characterised by the abnormal accumulation of α-synuclein aggregates in neurons, nerve fibres or glial cells. While small amounts of these α-synuclein pathologies can occur in some neurologically normal individuals who do not have associated neurodegeneration, the absence of neurodegeneration in such individuals precludes them from having a degenerative α-synucleinopathy, and it has yet to be established whether such individuals have a form of preclinical disease. There are three main types of α-synucleinopathy, Parkinson's disease (PD), dementia with Lewy bodies (DLB), and multiple system atrophy (MSA), with other rare disorders also having α-synuclein pathologies, such as various neuroaxonal dystrophies. Multiple clinical phenotypes exist for each of the three main α-synucleinopathies, with these phenotypes differing in the dynamic distribution of their underlying neuropathologies. Identifying the factors involved in causing different α-synuclein phenotypes may ultimately lead to more targeted therapeutics as well as more accurate clinical prognosis.

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Degeneration in Different Parkinsonian Syndromes Relates to Astrocyte Type and Astrocyte Protein Expression

Song

Halliday

Holton

et al. 2009

J Neuropathol Exp Neurol

187

151

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The reactive changes in different types of astrocytes were analyzed in parkinsonian syndromes in order to identify common reactions and their relationship to disease severity. Immunohistochemistry was used on formalin-fixed, paraffin-embedded sections from the putamen, pons, and substantia nigra from 13 Parkinson disease (PD), 29 multiple-system atrophy (MSA), 34 progressive supranuclear palsy (PSP), 10 corticobasal degeneration(CBD), and 13 control cases. Classic reactive astrocytes were observed in MSA, PSP, and CBD, but not PD cases; the extent of reactivity correlated with indices of neurodegeneration and disease stage. Approximately 40% to 45% of subcortical astrocytes in PD and PSP accumulated alpha-synuclein and phospho-tau, respectively; subcortical astrocytes in MSA and CBD cases did not accumulate these proteins. Protoplasmic astrocytes were identified from fibrous astrocytes by their expression of parkin coregulated gene and apolipoprotein D, and accumulated abnormal proteins in PD, PSP, and CBD, but not MSA. The increased reactivity of parkin coregulated gene-immunoreactive protoplasmic astrocytes correlated with parkin expression in PSP and CBD. Nonreactive protoplasmic astrocytes were observed in PD and MSA cases; in PD, they accumulated alpha-synuclein, suggesting that the attenuated response might be due to an increase in the level of alpha-synuclein. These heterogeneous astroglial responses in PD, MSA, PSP, and CBD indicate distinct underlying pathogenic mechanisms in each disorder.

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The progression of pathology in Parkinson's disease

Halliday

McCann

2010

Annals of the New York Academy of Sciences

251

140

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To identify the progression of pathology over the entire course of Parkinson's disease, we longitudinally followed a clinical cohort to autopsy and identified three clinicopathological phenotypes that progress at different rates. Typical Parkinson's disease has an initial rapid loss of midbrain dopamine neurons with a slow progression of Lewy body infiltration into the brain (over decades). Dementia intervenes late when Lewy bodies invade the neocortex. Older onset patients (> 70 years old) dement earlier and have much shorter disease durations. Paradoxically, they have far more alpha-synuclein-containing Lewy bodies throughout the brain, and many also have additional age-related plaque pathology. In contrast, dementia with Lewy bodies has the shortest disease course, with substantive amounts of Lewy bodies and Alzheimer-type pathologies infiltrating the brain. These data suggest that two age-related factors influence pathological progression in Parkinson's disease--the age at symptom onset and the degree and type of age-related Alzheimer-type pathology.

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Heather McCann

α-Synucleinopathy phenotypes

Degeneration in Different Parkinsonian Syndromes Relates to Astrocyte Type and Astrocyte Protein Expression

The progression of pathology in Parkinson's disease

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