Caveolin-1 regulates medium spiny neuron structural and functional plasticity | Zendy

Katherine R. Tonn Eisinger | Zendy; Andrew D. Chapp | Zendy; Samuel P. Swanson | Zendy; Daniel Tam | Zendy; Natalie M. Lopresti | Zendy; Erin B. Larson | Zendy; Mark J. Thomas | Zendy; Lorene M. Lanier | Zendy; P. Mermelstein | Zendy

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Caveolin-1 regulates medium spiny neuron structural and functional plasticity

Author(s) -

Katherine R. Tonn Eisinger,

Andrew D. Chapp,

Samuel P. Swanson,

Daniel Tam,

Natalie M. Lopresti,

Erin B. Larson,

Mark J. Thomas,

Lorene M. Lanier,

P. Mermelstein

Publication year - 2020

Publication title -

psychopharmacology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.378

H-Index - 196

eISSN - 1432-2072

pISSN - 0033-3158

DOI - 10.1007/s00213-020-05564-2

Subject(s) - medium spiny neuron , nucleus accumbens , neuroscience , dendritic spine , neuroplasticity , biology , neuron , sensitization , synaptic plasticity , basal ganglia , central nervous system , receptor , hippocampal formation , biochemistry

Caveolin-1 (CAV1) is a structural protein critical for spatial organization of neuronal signaling molecules. Whether CAV1 is required for long-lasting neuronal plasticity remains unknown.

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