Tom Carnwath scite author profile

Tom Carnwath

2Publications

46Citation Statements Received

115Citation Statements Given

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University of Cambridge

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The direct and indirect effects of α-synuclein on microtubule stability in the pathogenesis of Parkinson’s disease

Carnwath

Mohammed

Tsiang

2018

NDT

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Despite decades of research, the mechanism of Parkinson’s disease pathogenesis remains unclear. Studies have focused heavily on the protein α-synuclein, which is the primary component of Lewy bodies, the pathologic inclusions that are the hallmark of Parkinson’s on the cellular level. While the roles of α-synuclein in causing mitochondrial dysfunction and disruptions to the proteasomal system have been well documented, recently, its role in effecting microtubule dynamics has been investigated as a potential source of pathogenicity. Here, we evaluate the evidence for and against the role of α-synuclein in destabilizing microtubules, causing axonal transport deficits and eventually neurodegeneration. We present evidence for a model where α-synuclein has both a direct and indirect effect on microtubule stability. Directly, it may act as a microtubule-associated protein, binding to microtubules and directly effecting their dynamics. Indirectly, it may promote the hyperphosphorylation of the microtubule stabilizing protein, tau, leading to tau aggregation with other microtubule stabilizing proteins, hence indirectly causing microtubule destabilization. This model provides insights into the function of α-synuclein and tau in Parkinson’s disease pathogenesis and raises the possibility that this role that may also be conserved in Alzheimer’s disease.

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CD24 expression does not affect dopamine neuronal survival in a mouse model of Parkinson's disease

Stott¹,

Hayat²,

Carnwath³

et al. 2017

PLoS ONE

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Parkinson’s disease (PD) is a progressive neurodegenerative condition that is characterised by the loss of specific populations of neurons in the brain. The mechanisms underlying this selective cell death are unknown but by using laser capture microdissection, the glycoprotein, CD24 has been identified as a potential marker of the populations of cells that are affected in PD. Using in situ hybridization and immunohistochemistry on sections of mouse brain, we confirmed that CD24 is robustly expressed by many of these subsets of cells. To determine if CD24 may have a functional role in PD, we modelled the dopamine cell loss of PD in Cd24 mutant mice using striatal delivery of the neurotoxin 6-OHDA. We found that Cd24 mutant mice have an anatomically normal dopamine system and that this glycoprotein does not modulate the lesion effects of 6-OHDA delivered into the striatum. We then undertook in situ hybridization studies on sections of human brain and found—as in the mouse brain—that CD24 is expressed by many of the subsets of the cells that are vulnerable in PD, but not those of the midbrain dopamine system. Finally, we sought to determine if CD24 is required for the neuroprotective effect of Glial cell-derived neurotrophic factor (GDNF) on the dopaminergic nigrostriatal pathway. Our results indicate that in the absence of CD24, there is a reduction in the protective effects of GDNF on the dopaminergic fibres in the striatum, but no difference in the survival of the cell bodies in the midbrain. While we found no obvious role for CD24 in the normal development and maintenance of the dopaminergic nigrostriatal system in mice, it may have a role in mediating the neuroprotective aspects of GDNF in this system.

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Tom Carnwath

The direct and indirect effects of α-synuclein on microtubule stability in the pathogenesis of Parkinson’s disease

CD24 expression does not affect dopamine neuronal survival in a mouse model of Parkinson's disease

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Tom Carnwath

The direct and indirect effects of &alpha;-synuclein on microtubule stability in the pathogenesis of Parkinson&rsquo;s disease

CD24 expression does not affect dopamine neuronal survival in a mouse model of Parkinson's disease

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The direct and indirect effects of α-synuclein on microtubule stability in the pathogenesis of Parkinson’s disease