AComparative analysis of the development of the primary somatosensory cortex: Interspecies similarities during barrel and laminar development

Abstract The development of the barrels and layers II‐V was examined in Nissl‐stained preparations of the primary somatosensory cortex in six species‐ hamster, mouse, rat, gerbil, rabbit, and guinea pig–that have increasingly longer gestation periods. The barrels and layers II‐V begin to differentiate postnatally during the first week postpartum in the hamster, mouse, rat, and gerbil; perinatally in the rabbit; and ∼4 weeks prenatally in the guinea pig. The structure of the barrels and layers II‐V is similar at the onset of their differentiation in each species, even though there are interspecies differences in the mature structure of the barrels and layer V. The rate of the initial differentiation of the barrels and layers II‐V is also similar in each species, even though there are considerable interspecies differences in the duration of the preceding period of development. In each species, layer V begins to differentiate first from the cortical plate and, within 1 or 2 days, contains sublayers that eventually disappear in the rabbit and guinea pig. About 3 days after the initial differentiation of layer V, layers II‐IV begin to differentiate, seemingly simultaneously, causing the cortical plate to have a trilaminar appearance. Barrels are first evident just before the appearance of the trilaminar plate in hamsters; concomitant with the trilaminar plate in mice, rats, and guinea pigs; and just after the trilaminar plate in gerbils and rabbits. Septa appear 1 or 2 days after the barrels except in rabbits, which never have septa. Barrel maturation proceeds rapidly after the initial appearance in all species except the hamster, in which continued maturation seems to be delayed until the appearance of the trilaminar plate. The barrels in immature rats and rabbits become more prominent than they will eventually be in the adults. Our results indicate a close and rapid developmental affilation between layers II‐V, especially layers II‐IV, that seems quite separate from the development of layers I and VI. However, barrel development and differentiation of layers II‐IV seem to be closely, but independently initiated. Secondary remodeling occurs in layer V and the barrels of some species.