The Development of Excitatory Transmitter Amino Acid-containing Neurons in the Rat Visual Cortex. A Light and Electron Microscopic Immunocytochemical Study

Overview

Journal Exp Brain Res

Specialty Neurology

Date 1996 Aug 1

PMID 8871094

Citations 2

Authors

I Dori

J G Parnavelas

Affiliations

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Abstract

The excitatory amino acids L-glutamate and L-aspartate are believed to be utilized as neurotransmitters by the pyramidal neurons in the mammalian cerebral cortex. These cells can be recognized early in development, while glutamate might play an important part in the maturation and plasticity of the cortex. Here, we used light and electron microscopic immunocytochemistry to study the time of appearance and maturation of glutamate and aspartate in neurons of the rat visual cortex. Glutamate- and aspartate-immunoreactive cells were first detected in deep cortical layers at postnatal day 3. During the next 3 weeks, labelled neurons were observed progressively in more superficial layers, but did not demonstrate their adult pattern of distribution until postnatal week 4. Electron microscopic analysis showed that glutamate- and aspartate-labelled neurons gradually develop their cytological and synaptic features during the first 4 postnatal weeks, with this process of differentiation originating in the deep cortical layers and progressively extending to the superficial layers. These findings suggest that cortical pyramidal neurons begin to express detectable levels of transmitter glutamate and/or aspartate after they have completed their migration. Their neurochemical differentiation follows an "inside-out" pattern similar to the pattern described for the genesis and morphological differentiation of this population of cortical neurons.

Citing Articles

Serotonin promotes the differentiation of glutamate neurons in organotypic slice cultures of the developing cerebral cortex.

Lavdas A, Blue M, Lincoln J, Parnavelas J J Neurosci. 1997; 17(20):7872-80.

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Differential expression of connexins during neocortical development and neuronal circuit formation.

Nadarajah B, Jones A, Evans W, Parnavelas J J Neurosci. 1997; 17(9):3096-111.

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