Single-Synapse Analysis of a Diverse Synapse Population: Proteomic Imaging Methods and Markers

Micheva, Kristina D.; Busse, Brad; Weiler, Nicholas; O’Rourke, Nancy A.; Smith, Stephen J.

doi:10.1016/j.neuron.2010.09.024

Cited by 314 publications

(394 citation statements)

References 45 publications

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“…[32][33][34] Brains were removed from mice immediately after euthanasia by CO 2 inhalation. Human tissue samples were collected within 24 hours of autopsy.…”

Section: Sample Preparationmentioning

confidence: 99%

Tau Accumulation Causes Mitochondrial Distribution Deficits in Neurons in a Mouse Model of Tauopathy and in Human Alzheimer's Disease Brain

Kopeikina

Carlson

Pitstick

et al. 2011

The American Journal of Pathology

227

193

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Neurofibrillary tangles (NFT), intracellular inclusions of abnormal fibrillar forms of microtubule associated protein tau, accumulate in Alzheimer's disease (AD) and other tauopathies and are believed to cause neuronal dysfunction, but the mechanism of tau-mediated toxicity are uncertain. Tau overexpression in cell culture impairs localization and trafficking of organelles. Here we tested the hypothesis that, in the intact brain, changes in mitochondrial distribution occur secondary to pathological changes in tau. Array tomography, a high-resolution imaging technique, was used to examine mitochondria in the reversible transgenic (rTg)4510, a regulatable transgenic, mouse model and AD brain tissue. Mitochondrial distribution is progressively disrupted with age in rTg4510 brain, particularly in somata and neurites containing Alz50-positive tau aggregates. Suppression of soluble tau expression with doxycycline resulted in complete recovery of mitochondrial distribution, despite the continued presence of aggregated tau. The effect on mitochondrial distribution occurs without concomitant alterations in neuropil mitochondrial size, as assessed by both array tomography and electron microscopy. Similar mitochondrial localization alterations were also observed in human AD tissue in Alz50؉ neurons, confirming the relevance of tau to mitochondrial trafficking observed in this animal model. Because abnormalities reverted to normal if soluble tau was suppressed in rTg4510 mice, even in the continued presence of fibrillar tau inclusions, we suggest that soluble tau plays an important role in mitochondrial abnormalities, which likely contribute to neuronal dysfunction in AD.

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“…[32][33][34] Brains were removed from mice immediately after euthanasia by CO 2 inhalation. Human tissue samples were collected within 24 hours of autopsy.…”

Section: Sample Preparationmentioning

confidence: 99%

Tau Accumulation Causes Mitochondrial Distribution Deficits in Neurons in a Mouse Model of Tauopathy and in Human Alzheimer's Disease Brain

Kopeikina

Carlson

Pitstick

et al. 2011

The American Journal of Pathology

227

193

View full text Add to dashboard Cite

show abstract

“…Unlike the neuromuscular junction, mammalian central synapses have clearly defined release sites that differ widely in morphological, molecular, and functional properties (3)(4)(5). How these may influence signaling remains unclear because the small size of the presynaptic compartment of most central synapses has hindered electrophysiological and optical studies of quantal release at single functional sites.…”

mentioning

confidence: 99%

Readily releasable pool of synaptic vesicles measured at single synaptic contacts

Trigo

Sakaba

Ogden

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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To distinguish between different models of vesicular release in brain synapses, it is necessary to know the number of vesicles of transmitter that can be released immediately at individual synapses by a high-calcium stimulus, the readily releasable pool (RRP). We used direct stimulation by calcium uncaging at identified, singlesite inhibitory synapses to investigate the statistics of vesicular release and the size of the RRP. Vesicular release, detected as quantal responses in the postsynaptic neuron, showed an unexpected stochastic variation in the number of quanta from stimulus to stimulus at high intracellular calcium, with a mean of 1.9 per stimulus and a maximum of three or four. The results provide direct measurement of the RRP at single synaptic sites. They are consistent with models in which release proceeds from a small number of vesicle docking sites with an average occupancy around 0.7.release site | exocytosis | interneurons | cerebellum

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“…However, light microscopy remains limited for imaging throughout intact vertebrate nervous systems (for example, mouse brains span many millimeters even in the shortest spatial dimension and are opaque on this scale, due chiefly to light scattering). A common work-around to this limitation has been to slice brains into thin sections, in manual or automated fashion, followed by confocal or two-photon imaging (Micheva et al 2010;Ragan et al 2012); however, detailed labeling and reconstruction from thin sections have been (so far) limited to small volumes of tissue. An ideal integrative approach would be to label and image entirely intact vertebrate brains at high resolution.…”

Section: Claritymentioning

confidence: 99%

Form Meets Function in the Brain: Observing the Activity and Structure of Specific Neural Connections

Deisseroth

2016

Micro-, Meso- And Macro-Connectomics of the Brain

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Recent advances in neuroscience have enabled increasingly detailed insight into the activity and structure of brain circuitry. In previous work, we have developed and applied methods for precisely controlling the activity of specific cells and projections within neural systems during behavior (optogenetics). Here I review distinct complementary technological approaches for observing natural activity patterns in these cells and projections during behavior (fiber photometry) and for obtaining anatomical insights into the wiring and molecular phenotype of these circuit elements within the intact mammalian brain (CLARITY-optimized lightsheet microscopy). Together these approaches may help further advance understanding of the circuit dynamics and wiring patterns that underlie adaptive and maladaptive behavior.

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Single-Synapse Analysis of a Diverse Synapse Population: Proteomic Imaging Methods and Markers

Cited by 314 publications

References 45 publications

Tau Accumulation Causes Mitochondrial Distribution Deficits in Neurons in a Mouse Model of Tauopathy and in Human Alzheimer's Disease Brain

Tau Accumulation Causes Mitochondrial Distribution Deficits in Neurons in a Mouse Model of Tauopathy and in Human Alzheimer's Disease Brain

Readily releasable pool of synaptic vesicles measured at single synaptic contacts

Form Meets Function in the Brain: Observing the Activity and Structure of Specific Neural Connections

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