Jean-Pierre Bourgeois scite author profile

Synapses develop concurrently and at identical rates in different layers of the visual, somatosensory, motor, and prefrontal areas of the primate cerebral cortex. This isochronic course of synaptogenesis in anatomically and functionally diverse regions indicates that the entire cerebral cortex develops as a whole and that the establishment of cell-to-cell communication in this structure may be orchestrated by a single genetic or humoral signal. This is in contrast to the traditional view of hierarchical development of the cortical regions and provides new insight into the maturation of cortical functions.

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Synaptogenesis in the Prefrontal Cortex of Rhesus Monkeys

Bourgeois

1994

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Since the turn of the century, the prefrontal association areas of the cerebral cortex have been thought to be among the last regions of the cortical mantle to develop. We have examined the course of synaptogenesis in the macaque prefrontal cortex by quantitative electron microscopic analysis in 25 rhesus monkeys ranging in age from embryonic day 47 (E47) to 20 years of age. A series of overlapping electron micrographs spanning the whole cortical thickness in each animal provided data on the number, the proportion, and the density of synapses per unit area (NA) and per unit volume (NV) of neuropil. The tempo and kinetics of synapse formation in prefrontal cortex closely resemble those described for sensory and motor areas, particularly during the stages of synapse acquisition and overproduction (Rakic et al., 1986). In young embryos, we describe a precortical phase (E47-E78), when synapses are found only above and below, but not within, the cortical plate. Following that, there is an early cortical phase, from E78 to E104, during which synapses accumulate within the cortical plate, initially exclusively on dendritic shafts. The next rapid phase of synaptogenesis begins at 2 months before birth and ends approximately at 2 months after birth, culminating with a mean density of 750 million synapses per cubic micrometer. This accumulation is largely accounted for by a selective increase in axospine synapses in the supragranular layers. The period of explosive synaptic density is followed by a protracted plateau stage that lasts from 2 months to 3 years of age when synaptic density remains relatively constant. The final period of decline, from 3 years through over 20 years of age, is marked by a slight but statistically significant decline in synaptic density. Concurrent recruitment of synapses with that of sensory and motor areas supports the concept that the initial establishment of cortical circuitry is governed by general mechanisms common to all areas, independent of their specific functional domain. The finding that synaptic density is relatively stable from early adolescence through puberty (the plateau period) is indicative of the importance, in primates, of a consistent and high synaptic density during the formative years when learning experiences are most intense.

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Changes of synaptic density in the primary visual cortex of the macaque monkey from fetal to adult stage

1993

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The kinetics of synaptogenesis in the primary visual cortex (Brodmann's area 17) were analyzed by electron microscopy in 33 rhesus monkeys, ranging in age from the 50th embryonic day (E50) to 20 years. A series of overlapping electron micrographs (vertical probes) were examined at each age on sections of the upper bank of the calcarine fissure. Synaptic contacts were first observed in the E50 specimen in the subplate and marginal zone (prospective layer I). In the cortical plate itself, synapses appear between E65 and E89 starting in the prospective layer VI. By E112, after all cortical neurons have assumed their laminar positions, synapses situated predominantly on dendritic shafts were present at a low density throughout the full thickness of the cortical plate. Thereafter, synapses accumulate more rapidly on dendritic spines and by E144 an equal number of contacts are found on both spines and shafts. The density of synapses continues to increase exponentially in all layers and reaches the mean maximum density of about 90 synapses per 100 microns 3 of neuropil by the third postnatal month. During the next 2 postnatal years the density of synaptic contacts decreases only slightly to a mean of 80/100 microns 3 of neuropil. Around the time of puberty, however, synaptic density decreases more rapidly to reach the adult level of about 40-50/100 microns 3 of neuropil. The 40% decrease in the density of synaptic contacts occurring between 2.7 and 5 years represents a loss of about 5000 synapses per second in the primary visual cortex of the two hemispheres, due primarily to the loss of asymmetric synapses situated on dendritic spines. The transient phase of high density of synaptic contacts located on dendrospines is shorter in thalamo-recipient layer IV than in either supra- or intragranular layers and is completed within the first postnatal year. It ends earlier in sublayer IVC than in layers IVAB and II-III, for example, reflecting biochemical and functional maturation of the different visual subsystems.

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Synaptic development of the cerebral cortex: implications for learning, memory, and mental illness

1994

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A novel calmodulin-binding protein, belonging to the WD-repeat family, is localized in dendrites of a subset of CNS neurons.

et al. 1996

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