P.C. Emson scite author profile

1. The morphology, electrical membrane properties, and corticostriatal excitatory postsynaptic potentials (EPSPs) of two groups of neostriatal projection cells, patch cells, and matrix spiny cells were compared in the rat by the use of an in vitro slice preparation that preserves inputs from medial agranular cortex. Spiny cells were stained intracellularly with biocytin and identified as belonging to the patch (striosomal) compartment or to the matrix by immunohistochemistry for the 28 kD calcium-binding protein calbindin on the same sections. 2. Patch and matrix neurons had very similar axonal and dendritic morphology. Both patch and matrix cells extended their dendrites and local axon collaterals almost exclusively in their respective compartments. Patch cells and most matrix cells had local axon collaterals within or near the parent dendritic domain. However there was a class of matrix cells that extended axon collaterals over a much wider portion of the neostriatum but still restricted to the matrix compartment. 3. Input resistance and membrane time constant were estimated from the membrane response to intracellularly applied current pulses. The average values of matrix cells were and 8.41 ms. The values of patch cells were 31.8 M omega and 8.19 ms and were within the range of those of matrix cells. Both types of cells showed the same kinds of membrane nonlinearities when tested with the use of current pulses. Input resistance and time constant were both strongly affected by a fast anomalous rectification and were thus voltage-dependent, decreasing with membrane polarization. Slow ramplike depolarizing responses were observed in response to depolarizing current steps. 4. Repetitive firing was examined with the use of depolarizing current pulses. In both types of spiny cells, trains of action potentials showed little adaptation of spike frequency and linearly increased with current intensities less than 1 nA. The slopes frequency, calculated from the first and second intervals, were 115.0 and 107.2 Hz/nA, respectively, for matrix cells and 86.0 and 82.8 Hz/nA for patch cells. 5. Stimulation of the medial agranular cortex induced EPSPs in some striatal cells in both compartments. EPSP in matrix cells often showed both short-latency and long-latency components, corresponding to two early components of the response observed in vivo. Some matrix cells, and all patch cells, showed only the longer latency EPSP component. The average latency was 6.3 ms in matrix cells and 9.1 ms in patch cells. The relationship between EPSP amplitude and membrane potential was nonlinear, with EPSP amplitude and duration increasing with decreasing membrane polarization.(ABSTRACT TRUNCATED AT 400 WORDS)

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Neuropeptide-containing neurons of the cerebral cortex are also GABAergic.

Hendry

Jones

DeFelipe

et al. 1984

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

402

149

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Neurons in the cat and monkey cerebral cortex were stained immunocytochemically for glutamic acid decarboxylase (GluDCase; L-glutamate 1-carboxy-lyase, EC 4.1. GluDCase was co-localized with CCK, SRIF, or NPY not only in cell somata, but also in small punctate structures, which are likely to be axon terminals. From the data gained in previous electron microscopic studies, we postulate that neurons displaying GluDCase-and CCK-like immunoreactivity are a class separate from those displaying GluDCase-and SRIF-like immunoreactivity. NPY, however, is co-localized with SRIF immunoreactivity. These results imply that classes of cortical interneuron contain a conventional neurotransmitter (y-aminobutyric acid) and a neuromodulator (one of the peptides).

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GAP-43 expression in primary sensory neurons following central axotomy

et al. 1994

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Primary sensory neurons are capable of successful regenerative growth in response to peripheral nerve but not dorsal root injury. The present study is concerned with the differential expression of the mRNA for GAP-43, a growth-associated protein, in these sensory neurons, in response to injury of their central or peripheral axonal branches. Peripheral axotomy resulted in an elevation in message detectable within 24 hr, using Northern blot and in situ hybridization, which was maintained for 30 d, whereas dorsal root section produced no change except a transient and small increase if the axotomy was immediately adjacent to the dorsal root ganglia (DRG). Dorsal root section had no effect on GAP-43 mRNA levels in the dorsal horn or in neighboring intact DRG. It also failed to alter the laminar boundaries of the GAP-43 central terminal labeling produced by peripheral nerve section, even though vacant synaptic sites were produced in unstained laminae by this procedure. This indicates that the location of GAP-43 immunolabeling in the central terminals of primed sensory cells may not depend only on the location of vacant synaptic sites. We conclude that distinct control mechanisms regulate the response of DRG neurons to peripheral nerve and dorsal root injury, and these may be related both to the glial environment and the particular target influences exerted on the central and peripheral branches of the primary sensory neuron. Central denervation alone is insufficient to upregulate GAP-43 levels, and this may explain the relative absence of collateral sprouting after the production of central vacant synaptic sites. The failure of dorsal root section to increase GAP-43 expression may contribute to the poor regenerative response initiated by such lesions.

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Substance p-containing primary sensory neurons projecting to the inferior mesenteric ganglion: Evidence from combined retrograde tracing and immunohistochemistry

et al. 1982

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P.C. Emson

Roles of nitric oxide in tumor growth.

Intracellular recording of identified neostriatal patch and matrix spiny cells in a slice preparation preserving cortical inputs

Neuropeptide-containing neurons of the cerebral cortex are also GABAergic.

GAP-43 expression in primary sensory neurons following central axotomy

Substance p-containing primary sensory neurons projecting to the inferior mesenteric ganglion: Evidence from combined retrograde tracing and immunohistochemistry

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