Journal ArticleDOI
Vertical organization of neurones accumulating 3H-GABA in visual cortex of rhesus monkey.
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A bimodal distribution of GABA-accumulating neurones after injection into layers V and VI is reported, with one group of neurones around the injection site and the other directly above, in layers II and III.Abstract:
Electrophysiological and pharmacological studies1–6 indicate that the specific responses of most visual cortical neurones depend on intracortical γ-aminobutyric acid (GABA)-mediated inhibitory processes. GABAergic interneurones have been visualized in all layers of the mammalian cerebral cortex by immunocytochemical methods7,8 and by high-affinity uptake of exogenous 3H-GABA9–11. It is recognized that GABA is synthesized and specifically accumulated by aspinous and sparsely spinous stellate cells, but there is no evidence available to indicate whether the laminar distribution of these cells and their axonal projections are related to the known role of GABAergic inhibitory processes in the generation of responses in visual cortical cells. It would therefore be of value to delineate the intracortical projection of the axons of different types of GABA-releasing neurones in regions of cortex where the receptive field properties of the neurones, and their modification by GABA antagonists, are well known. The selective high-affinity uptake of labelled GABA has been useful in delineating GABAergic systems12: recently, it has been shown that exo-genous 3H-GABA is specifically taken up and transported retrogradely by axons of neurones thought to be GABA-ergic13,14. Using microinjections of 3H-GABA into different layers of the monkey visual cortex, we have examined the pattern of labelled neurones. We report here a bimodal distribution of GABA-accumulating neurones after injection into layers V and VI, with one group of neurones around the injection site and the other directly above, in layers II and III. We provide evidence that the latter neurones are non-pyramidal cells, probably labelled by retrograde axonal transport from the deep layers.read more
Citations
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Journal ArticleDOI
Salient features of synaptic organisation in the cerebral cortex
TL;DR: The cerebral cortex consists of a large population of principal neurons reciprocally connected to the thalamus and to each other via axon collaterals releasing excitatory amino acids, and a smaller population of mainly local circuit GABAergic neurones.
Journal ArticleDOI
Physiological subgroups of nonpyramidal cells with specific morphological characteristics in layer II/III of rat frontal cortex
TL;DR: Physiological and morphological properties of nonpyramidal cells in layer II/III of frontal cortex of young rats were studied in vitro by whole-cell recording and intracellular staining with biocytin and each subgroup with a different firing mode may differentially contribute to neocortical laminar and columnar circuitry.
Journal ArticleDOI
GABAergic Neurons and Their Role in Cortical Plasticity in Primates
TL;DR: There is a potential mechanism for the plasticity of representational maps that is demonstrable in somatic sensory, motor, auditory, and visual cortex as well as in primate neocortex.
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Chemoarchitecture of the brain
TL;DR: A survey of Chemically Defined Cell Groups and Pathways found new Entities in the Central Nervous System and Comment on the Functional Significance of POMC Derivatives.
References
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Journal ArticleDOI
Ferrier Lecture: Functional Architecture of Macaque Monkey Visual Cortex
David H. Hubel,Torsten N. Wiesel +1 more
TL;DR: In most respects the above description fits the newborn monkey just as well as the adult, suggesting that area 17 is largely genetically programmed.
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The contribution of inhibitory mechanisms to the receptive field properties of neurones in the striate cortex of the cat.
TL;DR: It is suggested that the normal subdivision of the simple cell receptive field into separate "on" and "off" regions and its directional specificity are dependent on intracortical inhibitory processes that are blocked by bicuculline.
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Aspinous and sparsely-spinous stellate neurons in the visual cortex of rats contain glutamic acid decarboxylase.
TL;DR: The localization of GAD within these neurons in combination with physiological and pharmacological data indicate that these local circuit neurons mediate GABA-ergic inhibition in the neocortex.
Journal ArticleDOI
The Ferrier Lecture, 1977 The neuron network of the cerebral cortex: a functional interpretation
TL;DR: The cerebral cortex has been shown to be a mosaic of columnar units of remarkably similar internal structure and surprisingly little variation of diameter (200-300 $\mu $m), and a systematic investigation is made of various types of interneurons and also of the local connections of the pyramidal cells by the combined application of four techniques: (i) the classical Golgi procedures, (ii) electron microscope studies of different types of synapses, (iii) light and electron microscopy studies in chronically isolated cortical slabs of local synapses that persist under such circumstances, and (
Journal ArticleDOI
Inhibitory processes underlying the directional specificity of simple, complex and hypercomplex cells in the cat's visual cortex
TL;DR: The iontophoretic application of bicuculline, an antagonist of GABA, the putative inhibitory transmitter in the visual cortex, has been used to examine the contribution of post‐synaptic inhibitory processes to the directional selectivity of simple, complex and hypercomplex cells in the cat's striate cortex.