Astrocytes as Modulators of Synaptic Information Transfer Herbert Levine UCSD/CTBP With V. Volman...
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Astrocytes as Modulators of Synaptic Information Transfer
Herbert Levine UCSD/CTBPWith V. Volman and E. Ben-Jacob, Tel-Aviv U.
Help from S. Nadkarni (UCSD) and P. Jung (Ohio)
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Organization of Neuroglia tissue
One type of glial cell, astrocytes
– are more numerous than neurons
– have processes which associate with synapses – seem to be required for various aspects of neural development, maintenance and neural dynamics
Nedergaard et al., TINS 26, 523 (2003)
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Astrocytes
Astrocytes are connected by gap junctions thereby forming a syncytium that is able to propagate signals for large distances
V. Parpura, UC-Riversideglial fibrillary acidic protein (GFAP)tagged with antibody.
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The tripartite synapse
From Fields, Scientific American
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Tsodyks-Uziel-Markham Synapse
Basic mechanism: depletion of pre-synaptic resources can occur if spikes arrive too frequently
Presynapic firing(actual data)
Postsynaptic current(TUM model)
0 sec 4
This model ignores any possible role for the astrocyte!
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SYNAPTIC VESICLE RELEASE
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Tsodyks-Uziel-Markham Synapse
Basic mechanism: depletion of pre-synaptic resources can occur if spikes arrive too frequently
Presynapic firing(actual data)
Postsynaptic current(TUM model)
0 sec 4
This model ignores any possible role for the astrocyte!
![Page 8: Astrocytes as Modulators of Synaptic Information Transfer Herbert Levine UCSD/CTBP With V. Volman and E. Ben-Jacob, Tel-Aviv U. Help from S. Nadkarni (UCSD)](https://reader030.fdocuments.us/reader030/viewer/2022032604/56649e665503460f94b60b6c/html5/thumbnails/8.jpg)
Reciprocal Communication
• Astrocytes detect released neurotransmitter, e.g. glutamate, by appropriate receptors
• This leads to an activation of the calcium signaling pathway– IP3 levels go up
– Calcium is released from internal stores– May propagate intra/intercellularly
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Intracellular Calcium handling
Positive feedback via CICR - excitable dynamics
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Calcium waves in glia
QuickTime™ and aVideo decompressor
are needed to see this picture.
Newman Lab, rat retina
Can use mechanical stimulus, but data also exists for neural stimulation
Here, we focus only on the local increase in Ca in one domain
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Li-Rinzel model
We use a standard model for Ca dynamics in the glial domain
where the channel current is given by
This term couples to synapse!
(Can also treat stochastically)
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IP3 dependence
Glutamate released in the synaptic cleft binds to glia mGluR’s
Leads to an increase in the IP3 messenger
Can lead to Ca oscillation -deterministic-stochastic
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QuickTime™ and aTIFF (Uncompressed) decompressor
are needed to see this picture.
Here, we will focus on an excitation pf a local microdomain of the astrocyte
Typical response should be composed of several elementary “puffs”
Xenopus oocyte, From I. Parker
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Effects on the synapse
• Reduced amplitude of EPSC’s• Increased number of spontaneous releases
– Depends on presynaptic mGluR and AMPA receptors– These are connected through the existence of a vesicle pool (that
can become depleted)– Modifies depletion terms in the TUM model
• Increases fidelity of “weak” synapses– Studied by Nadkarni and Jung
• There are also effects on the soma which will not be taken into account here, but are needed for a treatment of the full network.
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Enhanced Spontaneous Activity due to Astrocytes
Liu et al. , PNAS, 2004
•Astrocyte is loaded with caged Ca2+
•Upon photolysis, astrocyte released glutamate causes enhanced spontaneous activity.
•Leads to probability of current events (y axis) to shift to the left.
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Effects on the synapse
• Reduced amplitude of EPSC’s• Increased number of spontaneous releases
– Depends on presynaptic mGluR and AMPA receptors– These are connected through the existence of a vesicle
pool (that can become depleted)– Modifies depletion terms in the TUM model
• Increases fidelity of “weak” synapses– Studied by Nadkarni and Jung
• There are also effects on the soma which will not be taken into account here, but are needed for a treatment of the full network.
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Modulated synapse
Input spike train
Glia calcium level
Synapse coupling factor
Postsynaptic current
From Volman, Ben-Jacob and Levine, Submitted to Neural Comp.
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Consequences?
• Given this new level of biophysical detail, can we say something non-trivial about how this might be important for network dynamics?
• To do this, we will turn to recent experimental findings in culture systems done at Tel-Aviv Univ.
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Cultured neuron system
Ben-Jacob lab
Mixed cell culture grown on electrode array
Individual neuron spikes measured by spike sorting
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Activity in cultured neurons data from Ben-Jacob lab (TAU)
Bursting activity Burst fine-structure
“Spiker neuron”
Recordings from multi-electrode array w. spike sorting;Culture is from rat cortex; includes neurons and glial cells
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Zoom in
Synchronized bursting events (SBE)
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Activity in cultured neurons data from Ben-Jacob lab (TAU)
Bursting activity Burst fine-structure
“Spiker neuron”
Recordings from multi-electrode array w. spike sorting;Culture is from rat cortex; includes neurons and glial cells
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Inter-spike interval increments
Red - spiker neuronBlack - regular neuron
Regular neuron has sharper break at 100 msec; spiker neuron has power-law tail up to longer timescale
Indicates sharp transitions to different phases
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Spiker model
We propose that the spikers seen in the data arise via neurons with excitatory self-synapses which are coupled to astrocytic processes
Segal (1991) - Single hippocampal neuron microcultures
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Morris-Lecar Neuron
Infinite-period (saddle-node) bifurcation; complexity matched to Li-Rinzel model and TUM synapse
Dynamic K channel
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Autaptic oscillator - TUM synapse
We use a Morris-Lecar model biased to exhibit very low frequency firing in the absence of synaptic coupling
Cannot reproduce long time correlations seen in spiker firing, with TUM synaptic model
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Autaptic oscillator - with coupling
Recovers observed behavior up to much larger increments
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Autaptic oscillator - What is still missing?
Bias current should not be constant, but should arise self-consistently from the network
Adding even simple oscillation leads to a heavier tail (due to sharper bursts)- this is promising, but we need a full network model.
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Functional Significance??
• Why is this extra level of complexity important for functional neuronal systems?
• Apparently, the longer-time scale dynamics available to the spiker neurons helps organize the bursting activity of the whole network - creates regulated fluctuations
• Bursts can have different internal structures and be accessed by specific excitation protocols - perhaps these are the templates for associative information processing??
• Next steps - full network model (including soma effects) and try to match to longer intervals; plus use pharmacology to test hypothesized mechanisms.
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Spatiotemporal burst organization
Correlation matrix Clustered matrix
Clearly exist different types of burst patterns
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Functional Significance??
• Why is this extra level of complexity important for functional neuronal systems?
• Apparently, the longer-time scale dynamics available to the spiker neurons helps organize the bursting activity of the whole network - creates regulated fluctuations
• Bursts can have different internal structures and be accessed by specific excitation protocols - perhaps these are the templates for associative information processing?? Perhaps this is the type of behavior only seen in epileptic brains
• Next steps - full network model (including soma effects) and try to match to longer intervals; plus use pharmacology to test hypothesized mechanisms.
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(inter ictal)
(ictal)
)onset(
The challenge of epilepsy - from V. Towle
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Roots of epilepsy may lie in oft-ignored brain cellsSeptember 5, 2005Star-shaped brain cells that are often overlooked by doctors and scientists as mere support cells appear to play a key role in the development of epilepsy, researchers say in a study.
This opens up a new vista in efforts to treat epilepsy. It might be possible to treat epilepsy not by depressing or slowing brain function, as many of the current medications do, but by targeting brain cells that have been completely overlooked," said Maiken Nedergaard, MD, PhD.
The findings were published online August 14, 2005, in Nature Medicine.
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Summary/Outlook
• We have introduced a phenomenological model of the two-way glia-synapse coupling
• We have argued that this coupling may be evident in culture dynamics– Introduces longer time-scales– Regulates spontaneous activity
• These may allow for new forms of synaptic plasticity and stimulus associativity
• Next step: full network model including astrocytes, learning involving astrocytes?? etc.