Dopamine-modified α-synuclein blocks chaperone-mediated autophagy
Marta Martinez-Vicente, Zsolt Talloczy, Susmita Kaushik, Ashish C. Massey, Joseph Mazzulli, Eugene V. Mosharov, Roberto Hodara, Ross Fredenburg, Du-Chu Wu, Antonia Follenzi, William Dauer, Serge Przedborski, Harry Ischiropoulos, Peter T. Lansbury, David Sulzer, Ana Maria Cuervo
Marta Martinez-Vicente, Zsolt Talloczy, Susmita Kaushik, Ashish C. Massey, Joseph Mazzulli, Eugene V. Mosharov, Roberto Hodara, Ross Fredenburg, Du-Chu Wu, Antonia Follenzi, William Dauer, Serge Przedborski, Harry Ischiropoulos, Peter T. Lansbury, David Sulzer, Ana Maria Cuervo
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Research Article Neuroscience

Dopamine-modified α-synuclein blocks chaperone-mediated autophagy

Abstract

Altered degradation of α-synuclein (α-syn) has been implicated in the pathogenesis of Parkinson disease (PD). We have shown that α-syn can be degraded via chaperone-mediated autophagy (CMA), a selective lysosomal mechanism for degradation of cytosolic proteins. Pathogenic mutants of α-syn block lysosomal translocation, impairing their own degradation along with that of other CMA substrates. While pathogenic α-syn mutations are rare, α-syn undergoes posttranslational modifications, which may underlie its accumulation in cytosolic aggregates in most forms of PD. Using mouse ventral medial neuron cultures, SH-SY5Y cells in culture, and isolated mouse lysosomes, we have found that most of these posttranslational modifications of α-syn impair degradation of this protein by CMA but do not affect degradation of other substrates. Dopamine-modified α-syn, however, is not only poorly degraded by CMA but also blocks degradation of other substrates by this pathway. As blockage of CMA increases cellular vulnerability to stressors, we propose that dopamine-induced autophagic inhibition could explain the selective degeneration of PD dopaminergic neurons.

Authors

Marta Martinez-Vicente, Zsolt Talloczy, Susmita Kaushik, Ashish C. Massey, Joseph Mazzulli, Eugene V. Mosharov, Roberto Hodara, Ross Fredenburg, Du-Chu Wu, Antonia Follenzi, William Dauer, Serge Przedborski, Harry Ischiropoulos, Peter T. Lansbury, David Sulzer, Ana Maria Cuervo

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Figure 4

Degradation of dopamine-reacted α-syn in lysosomes by CMA.

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Degradation of dopamine-reacted α-syn in lysosomes by CMA. (A) Associati...
(A) Association of unmodified, dopamine-reacted (+DA) and dopaminochrome-reacted (+DAC) α-syn with isolated lysosomes untreated (binding [B]) or previously treated with proteinase inhibitors (association: binding + uptake [A]). Input (I): one-fifth of the amount of protein added to the incubation. The percentage of each protein bound and translocated inside lysosomes (middle) and the percentage of bound protein translocated into lysosomes (right) was calculated from the densitometric quantification of immunoblots. n = 6–8. (B) Effect of a 2-molar excess of GAPDH or ovalbumin (ovalb) on the association of unmodified and DA– and DAC–α-syn with lysosomes. Values are the percentage of inhibition of the lysosomal association of each form of α-syn. n = 6. (C) Effect of unmodified and DA– and DAC–α-syn in 0.5:1 molar ratio with [14C]GAPDH in the degradation of [14C]GAPDH by intact lysosomes. Values are mean + SEM of the percentage of GAPDH degradation at the end of the incubation in 4–5 experiments with triplicate samples. **P < 0.01.