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1.
Sci Data ; 2: 150046, 2015.
Article in English | MEDLINE | ID: mdl-26347348

ABSTRACT

Resurgent interest in synaptic circuitry and plasticity has emphasized the importance of 3D reconstruction from serial section electron microscopy (3DEM). Three volumes of hippocampal CA1 neuropil from adult rat were imaged at X-Y resolution of ~2 nm on serial sections of ~50-60 nm thickness. These are the first densely reconstructed hippocampal volumes. All axons, dendrites, glia, and synapses were reconstructed in a cube (~10 µm(3)) surrounding a large dendritic spine, a cylinder (~43 µm(3)) surrounding an oblique dendritic segment (3.4 µm long), and a parallelepiped (~178 µm(3)) surrounding an apical dendritic segment (4.9 µm long). The data provide standards for identifying ultrastructural objects in 3DEM, realistic reconstructions for modeling biophysical properties of synaptic transmission, and a test bed for enhancing reconstruction tools. Representative synapses are quantified from varying section planes, and microtubules, polyribosomes, smooth endoplasmic reticulum, and endosomes are identified and reconstructed in a subset of dendrites. The original images, traces, and Reconstruct software and files are freely available and visualized at the Open Connectome Project (Data Citation 1).


Subject(s)
Hippocampus/anatomy & histology , Neuropil , Animals , Image Processing, Computer-Assisted , Microscopy, Electron , Rats , Software
2.
J Comp Neurol ; 522(17): 3861-84, 2014 Dec 01.
Article in English | MEDLINE | ID: mdl-25043676

ABSTRACT

Nascent zones and active zones are adjacent synaptic regions that share a postsynaptic density, but nascent zones lack the presynaptic vesicles found at active zones. Here dendritic spine synapses were reconstructed through serial section electron microscopy (3DEM) and EM tomography to investigate nascent zone dynamics during long-term potentiation (LTP) in mature rat hippocampus. LTP was induced with theta-burst stimulation, and comparisons were made with control stimulation in the same hippocampal slices at 5 minutes, 30 minutes, and 2 hours post-induction and to perfusion-fixed hippocampus in vivo. Nascent zones were present at the edges of ∼35% of synapses in perfusion-fixed hippocampus and as many as ∼50% of synapses in some hippocampal slice conditions. By 5 minutes, small dense-core vesicles known to transport active zone proteins moved into more presynaptic boutons. By 30 minutes, nascent zone area decreased, without significant change in synapse area, suggesting that presynaptic vesicles were recruited to preexisting nascent zones. By 2 hours, both nascent and active zones were enlarged. Immunogold labeling revealed glutamate receptors in nascent zones; however, average distances from nascent zones to docked presynaptic vesicles ranged from 170 ± 5 nm in perfusion-fixed hippocampus to 251 ± 4 nm at enlarged synapses by 2 hours during LTP. Prior stochastic modeling suggests that decrease in glutamate concentration reduces the probability of glutamate receptor activation from 0.4 at the center of release to 0.1 just 200 nm away. Thus, conversion of nascent zones to functional active zones likely requires the recruitment of presynaptic vesicles during LTP.


Subject(s)
Hippocampus/cytology , Hippocampus/physiology , Long-Term Potentiation/physiology , Synapses/physiology , Analysis of Variance , Animals , Animals, Newborn , Biophysics , Dendrites/metabolism , Dendrites/ultrastructure , Electric Stimulation , Imaging, Three-Dimensional , In Vitro Techniques , Male , Microscopy, Electron, Transmission , Presynaptic Terminals/metabolism , Presynaptic Terminals/ultrastructure , Rats , Receptors, AMPA/metabolism , Receptors, AMPA/ultrastructure , Secretory Vesicles/ultrastructure , Synapses/ultrastructure , Time Factors
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