B. Granger et al., TEMPO OF NEUROGENESIS AND SYNAPTOGENESIS IN THE PRIMATE CINGULATE MESOCORTEX - COMPARISON WITH THE NEOCORTEX, Journal of comparative neurology, 360(2), 1995, pp. 363-376
In the neocortex, the onset of the rapid phase (phase 3) of synaptogen
esis occurs after the end of neurogenesis. However, we still do not kn
ow whether or not these two developmental events are causally related.
The present study compares the time-course and tempo of neurogenesis
and synaptogenesis in the anterior cingulate cortex (area 24 of Brodma
nn) and in the primary visual cortex (area 17) in a series of pre- and
postnatal rhesus monkeys. Autoradiographic analysis of animals fetall
y injected with H-3-thymidine showed that all neurons destined for are
a 24 are generated by embryonic day 70, which is 30 days earlier than
in area 17. The rapid phase of synaptogenesis in area 24 starts during
the third embryonic month and continues at the same rate through the
remainder of gestation and the first 2 months after birth, as has been
seen in neocortical areas examined previously. Statistical analysis o
f the linear portions of the rapid phase indicates that, although neur
ogenesis in area 24 is completed 1 month earlier than in area 17, the
rapid phase of synaptogenesis occurs 41 days later. Moreover, the temp
o of synaptic accretion was remarkably similar to that in motor, somat
osensory, visual, or associational areas. All were grouped within the
same time window of about 40 days, centered at birth. After the second
postnatal month, synaptic density in area 24 remains at a high level
until sexual maturity. This work shows that the rapid phase of synapto
genesis in the cingulate mesocortex is not linked temporally to the en
d of neurogenesis. We suggest that it is regulated by the same genetic
or humoral factors that control synaptogenesis in the phylogeneticall
y newer neocortical areas. (C) 1995 Wiley-Liss, Inc.