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Imaging neuronal structure dynamics using 2-photon super-resolution patterned excitation reconstruction microscopy.


ABSTRACT: Visualizing fine neuronal structures deep inside strongly light-scattering brain tissue remains a challenge in neuroscience. Recent nanoscopy techniques have reached the necessary resolution but often suffer from limited imaging depth, long imaging time or high light fluence requirements. Here, we present two-photon super-resolution patterned excitation reconstruction (2P-SuPER) microscopy for 3-dimensional imaging of dendritic spine dynamics at a maximum demonstrated imaging depth of 130 ?m in living brain tissue with approximately 100 nm spatial resolution. We confirmed 2P-SuPER resolution using fluorescence nanoparticle and quantum dot phantoms and imaged spiny neurons in acute brain slices. We induced hippocampal plasticity and showed that 2P-SuPER can resolve increases in dendritic spine head sizes on CA1 pyramidal neurons following theta-burst stimulation of Schaffer collateral axons. 2P-SuPER further revealed nanoscopic increases in dendritic spine neck widths, a feature of synaptic plasticity that has not been thoroughly investigated due to the combined limit of resolution and penetration depth in existing imaging technologies.

SUBMITTER: Urban BE 

PROVIDER: S-EPMC7313398 | biostudies-literature | 2018 Mar

REPOSITORIES: biostudies-literature

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Imaging neuronal structure dynamics using 2-photon super-resolution patterned excitation reconstruction microscopy.

Urban Ben E BE   Xiao Lei L   Dong Biqin B   Chen Siyu S   Kozorovitskiy Yevgenia Y   Zhang Hao F HF  

Journal of biophotonics 20171109 3


Visualizing fine neuronal structures deep inside strongly light-scattering brain tissue remains a challenge in neuroscience. Recent nanoscopy techniques have reached the necessary resolution but often suffer from limited imaging depth, long imaging time or high light fluence requirements. Here, we present two-photon super-resolution patterned excitation reconstruction (2P-SuPER) microscopy for 3-dimensional imaging of dendritic spine dynamics at a maximum demonstrated imaging depth of 130 μm in  ...[more]

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