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Synaptic targets of HRP-filled layer III pyramidal cells in the cat striate cortex (1986)

Kisvárday, Z. F. ; Martin, K. A. C. ; Freund, T. F. ; [et al.]

Springer

Experimental brain research 64 (1986), S. 541-552

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ISSN: 1432-1106

Keywords: Cortical organization ; Pyramidal cells ; Intracellular HRP ; Synaptic contacts ; GABAergic neurons

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary There are numerous hypotheses for the role of the axon collaterals of pyramidal cells. Most hypotheses predict that pyramidal cells activate specific classes of postsynaptic cells. We have studied the postsynaptic targets of two layer III pyramidal cells, that were of special interest because of their clumped axon arborization near, and also 0.4–1.0 mm from the cell body, in register in both layers III and V. 191 terminations from four sites (layers III and V, both in the column of the cell and in distant clumps) were analysed by electron microscopy. Only one bouton contacted a cell body and that was immunoreactive for GABA. The major targets were dendritic spines (84 and 87%), and the remainder were dendritic shafts. Of these 13 were classed as pyramidal-like (P), 8 smooth cell-like (S) and three could not be classified. Four of five S types, but none of the seven P types tested were immunoreactive for GABA, supporting the fine structural classification. The putative inhibitory cells therefore formed not more than 5% of the postsynaptic targets, and their activation could only take place through the convergence of pyramidal cells onto a select population of GABA cells. The results show that the type of pyramidal cells with clumped axons studied here make contacts predominantly with other pyramidal cells. Thus the primary role of both the intra and intercolumnar collateral systems is the activation of other excitatory cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00340492

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The relationship between GABA immunoreactivity and labelling by local uptake of [3H]GABA in the striate cortex of monkey (1986)

Kisvárday, Z. F. ; Cowey, A. ; Hodgson, A. J. ; [et al.]

Springer

Experimental brain research 62 (1986), S. 89-98

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ISSN: 1432-1106

Keywords: [3H]GABA accumulation ; GABA immunostaining ; Co-localisation ; Visual cortex ; Inhibitory circuits

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary An antiserum to GABA was used in the macaque monkey to determine whether neurons that accumulate exogenously applied [3H]GABA in vivo are also immunoreactive for GABA. Following the injection of [3H]GABA into different laminae of striate cortex in two untreated animals and in one animal treated with amino-oxyacetic acid, selective accumulation of the labelled amino acid was demonstrated in perikarya by autoradiography. Radiographically labelled neurons (n, 519) and their unlabelled neighbours were tested in consecutive 0.5 μm thick sections by immunocytochemistry for GABA immunoreacitivity. Injection of [3H]GABA did not increase the number of neurons showing GABA immunoreactivity. On the contrary many of the cells that accumulated [3H]GABA were immunonegative. These neurons were mostly located in layers IVC and VA following [3H]GABA injection into layers II–III, and in layers upper III and II following injection into layers V and VI. A comparison of the position of these neurons with known local projection patterns in the striate cortex of monkey suggests that GABA-immunonegative neurons may nevertheless become labelled by [3H]GABA if most of their local axon terminals fall within the injection site. The interlaminar projection of GABA-immunopositive neurons, which probably contain endogenous GABA, could be deduced from the position of the [3H]GABA injection site that leads to their autoradiographic labelling. Although the present study confirmed our previous results on the interlaminar connections of neurons that accumulate [3H]GABA, it demonstrated that [3H]GABA labelling alone may not be a sufficient criterion to assess the GABAergic nature of neurons in the striate cortex of monkey.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237405

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