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An ultrastructural study of the maturation of neuronal somata in the visual cortex of the rat (1979)

Parnavelas, J. G. ; Lieberman, A. R.

Springer

Anatomy and embryology 157 (1979), S. 311-328

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ISSN: 1432-0568

Keywords: Visual cortex ; Development ; Pyramidal neurons ; Non-pyramidal neurons ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The postnatal development of neuronal perikarya in layers II–VI of the visual cortex of perfusion-fixed albino rats, 12 h to 180 days old, has been studied by electron microscopy. Particular attention was paid to cells in photographic montages of 75μm wide strips extending through the full depth of the occipital cortex, cut from 100 μm vibratome sections of the brain. At birth, and during the first few postnatal days, most of the neurons present in the cortex are small, tightly packed ‘indifferent’ cells with scanty cytoplasm containing mitochondria and chiefly free ribosomes; a few presumptive pyramidal cells with a developing apical dendrite and more voluminous cytoplasm can be recognized in deep cortex. Non-pyramidal cells can be identified on postnatal day 6, when although scarce and with immature cytoplasmic features, they already display a more electron opaque chromatin pattern than developing pyramidal cells and receive axo-somatic contacts of Gray's type I. During the second postnatal week there are conspicuous increases in the maturity of the cells, which acquire a rich complement of cytoplasmic organelles: in general cells situated in the deep cortical plate are larger and better differentiated than those in the superficial plate, and non-pyramidal cells are less well differentiated than the associated pyramidal cells. By the end of the second week, differences in cytoplasmic maturity between superficial and deep, and between pyramidal and non-pyramidal cells are less evident. Maturation proceeds during the third postnatal week; both types of cells acquire an adult complement of axo-somatic synapses and their mature nuclear and cytoplasmic features, and by day 24 are indistinguishable from their adult counterparts. In keeping with previous Golgi studies of this same cortex, the non-pyramidal cells did not acquire mature ultrastructural features significantly later than the pyramidal cells. A possible correlate of particularly active synaptogenesis and plasticity in the population of nonpyramidal, cells during the third postnatal week (immediately after eyeopening), was that at this time these cells contained very prominent accumulations of granular reticulum, ribosomes and Golgi apparatus, and appeared hypertrophic.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00304996

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The development of non-pyramidal neurons in the visual cortex of the rat (1979)

Parnavelas, J. G. ; Bradford, R. ; Mounty, E. J. ; [et al.]

Springer

Anatomy and embryology 155 (1979), S. 1-14

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ISSN: 1432-0568

Keywords: Visual cortex ; Non-pyramidal neurons ; Development ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We have studied the maturation of non-pyramidal cells in layers II–VI of the visual cortex of albino rats from birth to maturity, using Golgi-Cox and rapid Golgi preparations. At birth, non-pyramidall cells are sparse, immature and concentrated in the deep part of the cortical plate: their number increases towards the end of the first week but they remain sparse and immature in the upper part of the cortical plate. During the second postnatal week, the number, size and extent of dendritic and axonal branching of these cells undergo considerable increases and the cells become conspicuous in layer IV and apparent in the supragranular layers: this “growth spurt’ occurs just after (and may be related to) the arrival and establishment in the cortex during the second half of the first postnatal week, of extrinsic afferents. During the third postnatal week, most of the cells complete their maturation. At the end of this week, the number of spinous cells is greater and the spine density of some cells is higher than in the adult, falling to adult values during the fourth postnatal week. It is noteworthy that the non-pyramidal cells appear to reach maturity at about the same time in all the layers studied, and at the same time as the pyramidal cells with which they are associated. These observations are not in accord with the prevalent view that non-pyramidal cells complete their differentiation much later than pyramidal cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00315726

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Immunoelectron microscopic study of γ-aminobutyric acid inputs to identified thalamocortical projection neurons in the anterior thalamus of the rat (1999)

Wang, B. ; Gonzalo-Ruiz, A. ; Sanz, J. M. ; [et al.]

Springer

Experimental brain research 126 (1999), S. 369-382

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ISSN: 1432-1106

Keywords: Key words Anterodorsal thalamic nucleus ; Anteroventral thalamic nucleus ; Retrograde labelling ; Postembedding immunoelectron microscopy ; Inhibitory synapses

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We have carried out a semi-quantitative ultrastructural study to determine the characteristics and distribution of γ-aminobutyric acid (GABA)-containing constituents of the anterodorsal (AD) and anteroventral (AV) thalamic nuclei in adult rats. We used a polyclonal antibody to GABA and a postembedding immunogold detection method in animals in which the cortical projection neurons of these nuclei had been labelled by retrograde transport of cholera toxin/horseradish peroxidase (HRP) injected into the retrosplenial granular cortex. Two types of GABA-immunopositive structures were identified, with gold particle densities 4–40 times higher than the highest densities over blood-vessel lumens and areas of empty resin: (1) an apparently homogeneous population of axon terminals with Gray type-2 (symmetric) synaptic contacts corresponding to F-axon terminals; and (2) small–medium sized myelinated axons scattered individually or in small groups within the neuropil which may be their parent axons. These axons and terminals may originate from the ipsilateral thalamic reticular nucleus; others may arise from the basal forebrain or brainstem. The GABA-immunopositive terminals comprised approximately 16% of all axon terminal profiles in AD and 12% in AV, a significant difference. However, because the immunoreactive axon terminals in AD were significantly larger than those in AV (1.09±0.47 µm2 vs 0.90±0.43 µm2) and would therefore be encountered more frequently, it is not possible to conclude that the GABAergic innervation of AD is heavier than that of AV. The GABA-positive terminals established synaptic contacts with cell bodies and dendrites of all sizes (some of which were HRP-labelled) with the following frequency distribution (AD/AV, no significant difference): somata 5%/7%; large dendrites (≥1.5 µm) 14%/9%; medium dendrites (1.00–1.49 µm) 35%/45% and small dendrites (〈1 µm) 46%/40%. Despite evidence from previous studies, we found no evidence in this study for the presence of GABAergic interneurons or for GABA-containing projection neurons in AD or AV.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002210050744

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