Exploring parameter space in detailed single neuron models: simulations of the mitral and granule cells of the olfactory bulb

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Exploring parameter space in detailed single neuron models: simulations of the mitral and granule cells of the olfactory bulb

U. S. Bhalla and J. M. Bower
Division of Biology, California Institute of Technology, Pasadena 91125.

1. Detailed compartmental computer simulations of single mitral and granule cells of the vertebrate olfactory bulb were constructed using previously published geometric data. Electrophysiological properties were determined by comparing model output to previously published experimental data, mainly current-clamp recordings. 2. The passive electrical properties of each model were explored by comparing model output with intracellular potential data from hyperpolarizing current injection experiments. The results suggest that membrane resistivity in both cells is nonuniform, with somatas having a substantially lower resistivity than the dendrites. 3. The active properties of these cells were explored by incorporating active ion channels into modeled compartments. On the basis of evidence from the literature, the mitral cell model included six channel types: fast sodium, fast delayed rectifier (Kfast), slow delayed rectifier (K), transient outward potassium current (KA), voltage- and calcium-dependent potassium current (KCa), and L-type calcium current. The granule cell model included four channel types: rat brain sodium, K, KA, and the non-inactivating muscarinic potassium current (KM). Modeled channels were based on the Hodgkin-Huxley formalism. 4. Representative kinetics for each of the channel classes above were obtained from the literature. The experimentally unknown spatial distributions of each included channel were obtained by systematic parameter searches. These were conducted in two ways: large-scale simulation series, in which each parameter was varied in turn, and an adaptation of a multidimensional conjugate gradient method. In each case, the simulated results were compared wtih experimental data using a curve-matching function evaluating mean squared differences of several aspects of the simulated and experimental voltage waveforms. 5. Systematic parameter variations revealed a single distinct region of parameter space in which the mitral cell model best fit the data. This region of parameter space was also very robust to parameter variations. Specifically, optimum performance was obtained when calcium and slow K channels were concentrated in the glomeruli, with a lower density in the soma and proximal secondary dendrites. The distribution of sodium and fast potassium channels, on the other hand, was highest at the soma and axon, with a much lighter distribution throughout the secondary dendrites. The KA and KCa channels were also concentrated near the soma. 6. The parameter search of the granule cell model was much less restrained by experimental data. Several parameter regimes were found that gave a good match to the data.(ABSTRACT TRUNCATED AT 400 WORDS)

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				J. Golowasch, M. S. Goldman, L. F. Abbott, and E. Marder Failure of Averaging in the Construction of a Conductance-Based Neuron Model J Neurophysiol, February 1, 2002; 87(2): 1129 - 1131. [Abstract] [Full Text] [PDF]

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				B. S. Mleux and L. E. Moore Active Dendritic Membrane Properties of Xenopus Larval Spinal Neurons Analyzed With a Whole Cell Soma Voltage Clamp J Neurophysiol, March 1, 2000; 83(3): 1381 - 1393. [Abstract] [Full Text] [PDF]

				G. Y. Shen, W. R. Chen, J. Midtgaard, G. M. Shepherd, and M. L. Hines Computational Analysis of Action Potential Initiation in Mitral Cell Soma and Dendrites Based on Dual Patch Recordings J Neurophysiol, December 1, 1999; 82(6): 3006 - 3020. [Abstract] [Full Text] [PDF]

				L. E. Moore, N. Chub, J. Tabak, and M. O'Donovan NMDA-Induced Dendritic Oscillations during a Soma Voltage Clamp of Chick Spinal Neurons J. Neurosci., October 1, 1999; 19(19): 8271 - 8280. [Abstract] [Full Text] [PDF]

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				D. Jaeger and J. M. Bower Synaptic Control of Spiking in Cerebellar Purkinje Cells: Dynamic Current Clamp Based on Model Conductances J. Neurosci., July 15, 1999; 19(14): 6090 - 6101. [Abstract] [Full Text] [PDF]

				E. M. Talley, L. L. Cribbs, J.-H. Lee, A. Daud, E. Perez-Reyes, and D. A. Bayliss Differential Distribution of Three Members of a Gene Family Encoding Low Voltage-Activated (T-Type) Calcium Channels J. Neurosci., March 15, 1999; 19(6): 1895 - 1911. [Abstract] [Full Text] [PDF]

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Exploring parameter space in detailed single neuron models: simulations of the mitral and granule cells of the olfactory bulb