Method Article

Deriving the Time Course of Glutamate Clearance with a Deconvolution Analysis of Astrocytic Transporter Currents

DOI:

10.3791/50708

August 7th, 2013

In This Article

Summary

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We describe an analytical method to estimate the lifetime of glutamate at astrocytic membranes from electrophysiological recordings of glutamate transporter currents in astrocytes.

Abstract

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The highest density of glutamate transporters in the brain is found in astrocytes. Glutamate transporters couple the movement of glutamate across the membrane with the co-transport of 3 Na+ and 1 H+ and the counter-transport of 1 K+. The stoichiometric current generated by the transport process can be monitored with whole-cell patch-clamp recordings from astrocytes. The time course of the recorded current is shaped by the time course of the glutamate concentration profile to which astrocytes are exposed, the kinetics of glutamate transporters, and the passive electrotonic properties of astrocytic membranes. Here we describe the experimental and analytical methods that can be used to record glutamate transporter currents in astrocytes and isolate the time course of glutamate clearance from all other factors that shape the waveform of astrocytic transporter currents. The methods described here can be used to estimate the lifetime of flash-uncaged and synaptically-released glutamate at astrocytic membranes in any region of the central nervous system during health and disease.

Introduction

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Astrocytes are one of the most abundant cell types in the brain with star-shaped morphology and fine membrane protrusions that extend throughout the neuropil and reach neighboring synaptic contacts 1,2. The astrocytes' cell membrane is densely packed with glutamate transporter molecules 3. Under physiological conditions, glutamate transporters rapidly bind glutamate at the extracellular side of the membrane and transfer it to the cell cytoplasm. By doing so, the transporters maintain low the basal concentration of glutamate in the extracellular space 4. Glutamate transporters in fine astrocytic processes adjacent to excitatory synapses....

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Protocol

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1. Slice Preparation

  1. Prepare 500 ml slicing/storage solution containing (in mM): 119 NaCl, 2.5 KCl, 0.5 CaCl2, 1.3 MgSO4·7H2O, 4 MgCl2, 26.2 NaHCO3, 1 NaH2PO4, and 22 glucose, 320 mOsm, pH 7.4
  2. Use a 250 ml beaker to prepare a submersion chamber for the slices, fill it with 200 ml slicing/storage solution, warm it in a water bath at 34 °C and bubble it with 95% O2, 5% CO2.
  3. Keep the remaining slicing/storage solution in a glass bottle at 4 °C.
  4. Use a cyanoacrylate adhesive to attach a small agar block (6%, prepared in ACSF) on the v....

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Results

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The success of the analytical approach described here critically depends on obtaining high-quality electrophysiological recordings of transporter currents from astrocytes in any region of the central nervous system. In acute mouse hippocampal slices, astrocytes can be readily identified under Dodt illumination or IR-DIC because of their small cell body (Ø = 10 μm) and prominent nucleus (Figure 1). Their distinctive star-shaped morphology can be appreciated with epifluorescence, confocal, or two-photon la.......

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Discussion

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Here we describe an experimental approach to obtain electrophysiological recordings from astrocytes, an analytical protocol to isolate glutamate transporter currents in astrocytes and a mathematical method to derive the time course of glutamate clearance from astrocytic transporter currents.

The success of the analysis relies on the ability to obtain high-quality patch clamp recordings from astrocytes and on the accuracy of the fitting algorithms used to describe the transporter currents. The .......

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Disclosures

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The authors declare no conflict of interest.

Acknowledgements

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This work was supported by the National Institute of Neurological Disorders and Stroke Intramural Research Program (NS002986). AS wrote the manuscript and implemented the deconvolution analysis. JSD developed the initial version of the deconvolution analysis and commented on the text.

....

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Materials

List of materials used in this article
NameCompanyCatalog NumberComments
CGP52432Tocris1246
(R,S)-CPPTocris173
DPCPXTocris439
LY341495 disodium saltTocris4062
MSOPTocris803
NBQX disodium saltTocris1044
D,L-TBOATocis1223
PicrotoxinSigmaP1675
MNI-L-glutamateTocris1490
Alexa 594Life TechnologiesA10438Optional
Matrix electrodesFrederick Haer CompanyMX21AES(JD3)
Borosilicate glass capillariesWorld Precision InstrumentsPG10165-4
Dual-stage glass micro-pipette pullerNarishigePC-10
Loctite 404 instant adhesiveTed Pella46551
Xe lampRapp OptoElectronicFlashMic
Igor Pro 6Wavemetrics

References

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  1. Ventura, R., Harris, K. M. Three-dimensional relationships between hippocampal synapses and astrocytes. J. Neurosci. 19, 6897-6906 (1999).
  2. Witcher, M. R., Kirov, S. A., Harris, K. M. Plasticity of perisynaptic astroglia during synaptogenesis in the mature rat hip....

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Tags

Glutamate ClearanceAstrocytic Transporter CurrentsDeconvolution AnalysisWhole cell Patch clampTBOA AntagonistSynaptic StimulationBrain Slice PreparationElectrophysiology RecordingsTransporter Current IsolationFlash uncaged Glutamate

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