The role of microtubule (MT) dysfunction in Parkinson’s disease is emerging. It is still unknown whether it is a cause or a consequence of neurodegeneration. Our objective was to assess whether alterations of MT stability precede or follow axonal transport impairment and neurite degeneration in experimental parkinsonism induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) in C57Bl mice. MPTP induced a time- and dose-dependent increase in fibres with altered mitochondria distribution, and early changes in cytoskeletal proteins and MT stability. Indeed, we observed significant increases in neuron-specific betaIII tubulin and enrichment of deTyr tubulin in dopaminergic neurons. Finally, we showed that repeated daily administrations of the MT stabilizer Epothilone D rescued MT defects and attenuated nigrostriatal degeneration induced by MPTP. These data suggest that alteration of MTs is an early event specifically associated with dopaminergic neuron degeneration. Pharmacological stabilization of MTs may be a viable strategy for the management of parkinsonism.
Microtubule alterations occur early in experimental Parkinsonism and the microtubule stabilizer epothilone D is neuroprotective / D. Cartelli, F. Casagrande, C.L. Busceti, D. Bucci, G. Molinaro, A. Traficante, D. Passarella, E. Giavini, G. Pezzoli, G. Battaglia, G. Cappelletti. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - 3(2013), pp. 1837.1-1837.10. [10.1038/srep01837]
Microtubule alterations occur early in experimental Parkinsonism and the microtubule stabilizer epothilone D is neuroprotective
D. Cartelli;F. Casagrande;D. Passarella;E. Giavini;G. Cappelletti
2013
Abstract
The role of microtubule (MT) dysfunction in Parkinson’s disease is emerging. It is still unknown whether it is a cause or a consequence of neurodegeneration. Our objective was to assess whether alterations of MT stability precede or follow axonal transport impairment and neurite degeneration in experimental parkinsonism induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) in C57Bl mice. MPTP induced a time- and dose-dependent increase in fibres with altered mitochondria distribution, and early changes in cytoskeletal proteins and MT stability. Indeed, we observed significant increases in neuron-specific betaIII tubulin and enrichment of deTyr tubulin in dopaminergic neurons. Finally, we showed that repeated daily administrations of the MT stabilizer Epothilone D rescued MT defects and attenuated nigrostriatal degeneration induced by MPTP. These data suggest that alteration of MTs is an early event specifically associated with dopaminergic neuron degeneration. Pharmacological stabilization of MTs may be a viable strategy for the management of parkinsonism.
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