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Author Notes:

Correspondence: Rosa M. Villalba, Yerkes National Primate Research Center, Emory University, 954 Gatewood Rd. NE, Atlanta, GA 30329, USA. e-mail: rvillal@emory.edu

Acknowledgments: The authors thank the Yerkes Center Animal Resources Division for help with the care of MPTP-treated monkeys.

Jean-Francois Pare and Susan Jenkins are also thanked for technical assistance.

Disclosures: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Subjects:

Research Funding:

This work was supported by the NIH grant R01 NS 037948 and by the NCRR Yerkes Primate Center base grant RR00165.

Striatal spine plasticity in Parkinson’s disease

Tools:

Journal Title:

Frontiers in Neuroanatomy

Volume:

Volume 4, Number 133

Publisher:

, Pages 1-7

Type of Work:

Article | Final Publisher PDF

Abstract:

Striatal dopamine (DA) denervation results in a significant loss of dendritic spines on medium spiny projection neurons in Parkinson’s disease. In 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated parkinsonian monkeys, spines contacted either by cortical or thalamic glutamatergic terminals are severely affected on both direct and indirect striatofugal neurons. In rodents, indirect pathway neurons appear to be more sensitive, at least in early stages of acute dopamine denervation. The remaining corticostriatal and thalamostriatal axo-spinous synapses undergo complex ultrastructural remodeling consistent with increased synaptic activity in the DA-denervated primate striatum, which may explain the pathophysiological overactivity of the corticostriatal system reported in various animal models of parkinsonism. The calcium-mediated regulation of the transcription factor myocyte enhancer factor 2 was recognized as a possible underlying mechanism for striatal spine plasticity. Future studies to determine how alterations in striatal spine plasticity contribute to the symptomatology of parkinsonism are warranted.

Copyright information:

© 2010 Villalba and Smith.

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