Interhemispheric connections differ between symmetrical and asymmetrical brain regions

Coronal sections from the brains of male Wistar rats that underwent corpus-callosectomy in adulthood were stained with Cresyl Violet for Nissl substance or by the Fink-Heimer method for terminal axonal degeneration. Measurements of volumetric asymmetry of neocortical region SM-I were made, and the per cent of terminal degeneration computed. As in previous studies, there was a negative correlation between asymmetry coefficient and total (right plus left) architectonic volume, indicating that symmetrical brain regions are larger than the average of the corresponding regions in asymmetrical brains. It was also found that as volumetric asymmetry increased, the per cent of axonal termination decreased, partly as a result of a decrease in the number of patches of callosal axonal termination. These results are interpreted in the light of what is known about the ontogenesis of callosal connectivity, and mechanisms for the development of architectonic asymmetry in the cerebral cortex are postulated.

[1]  L. Heimer,et al.  Two methods for selective silver impregnation of degenerating axons and their synaptic endings in the central nervous system. , 1967, Brain research.

[2]  S. F. Witelson The brain connection: the corpus callosum is larger in left-handers. , 1985, Science.

[3]  A M Galaburda,et al.  Symmetry and asymmetry in the human posterior thalamus. I. Cytoarchitectonic analysis in normal persons. , 1982, Archives of neurology.

[4]  D. Moody,et al.  Neural lateralization of species-specific vocalizations by Japanese macaques (Macaca fuscata). , 1978, Science.

[5]  M. Diamond,et al.  Morphological changes in the young, adult and aging rate cerebral cortex, hippocampus, and diencephalon. , 1975, Behavioral biology.

[6]  H. Killackey,et al.  The ontogeny of the distribution of callosal projection neurons in the rat parietal cortex , 1981, The Journal of comparative neurology.

[7]  N. Geschwind,et al.  Right-left asymmetrics in the brain. , 1978, Science.

[8]  E. G. Jones,et al.  The organization and postnatal development of the commissural projection of the rat somatic sensory cortex , 1976, The Journal of comparative neurology.

[9]  R. Sperry Lateral specialization in the surgically separated hemispheres. , 1974 .

[10]  G. Paxinos The Rat nervous system , 1985 .

[11]  N. Geschwind,et al.  Neuroanatomical asymmetries in non-human species , 1982, Trends in Neurosciences.

[12]  N. Geschwind,et al.  Human Brain: Left-Right Asymmetries in Temporal Speech Region , 1968, Science.

[13]  H. Killackey,et al.  Ontogenetic changes in the projections of neocortical neurons , 1982, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[14]  M. Diamond,et al.  Age-related morphologic differences in the rat cerebral cortex and hippocampus: Male-female; right-left , 1983, Experimental Neurology.

[15]  A. Galaburda,et al.  The effect of developmental neuropathology on neocortical asymmetry in New Zealand black mice. , 1989, The International journal of neuroscience.

[16]  G. Innocenti,et al.  Multiple sets of visual cortical neurons projecting transitorily through the corpus callosum , 1983, Neuroscience Letters.

[17]  Glenn D. Rosen,et al.  Planum temporale asymmetry, reappraisal since Geschwind and Levitsky , 1987, Neuropsychologia.

[18]  H. Killackey,et al.  Differential distribution of callosal projection neurons in the neonatal and adult rat , 1979, Brain Research.

[19]  W. Cowan,et al.  Evidence that the early postnatal restriction of the cells of origin of the callosal projection is due to the elimination of axonal collaterals rather than to the death of neurons. , 1981, Brain research.

[20]  Marjorie LeMay,et al.  MORPHOLOGICAL CEREBRAL ASYMMETRIES OF MODERN MAN, FOSSIL MAN, AND NONHUMAN PRIMATE , 1976, Annals of the New York Academy of Sciences.

[21]  L. Rogers Light experience and asymmetry of brain function in chickens , 1982, Nature.

[22]  J. Trojanowski,et al.  The cells of origin of the corpus callosum in rat, cat and rhesus monkey. , 1974, Brain research.

[23]  M W Mahowald,et al.  Asymmetry of the lateral (sylvian) fissures in man , 1976, Neurology.

[24]  Bryan Kolb,et al.  Asymmetry in the cerebral hemispheres of the rat, mouse, rabbit, and cat: The right hemisphere is larger , 1982, Experimental Neurology.

[25]  V H Denenberg,et al.  Infantile stimulation induces brain lateralization in rats. , 1978, Science.

[26]  R. C. Van Sluyters,et al.  Organization and postnatal development of callosal connections in the visual cortex of the rat , 1985, The Journal of comparative neurology.

[27]  J. Beaumont Cerebral Lateralization: Biological Mechanisms, Associations, and Pathology , 1987 .

[28]  Glenna A. Dowling,et al.  Morphologic cerebral cortical asymmetry in male and female rats , 1981, Experimental Neurology.

[29]  A. Galaburda,et al.  Inferior parietal lobule. Divergent architectonic asymmetries in the human brain. , 1984, Archives of neurology.

[30]  N. Geschwind,et al.  Hemispheric differences in the brains of great apes. , 1975, Brain, behavior and evolution.

[31]  J A Wada,et al.  Cerebral hemispheric asymmetry in humans. Cortical speech zones in 100 adults and 100 infant brains. , 1975, Archives of neurology.

[32]  V. Denenberg Hemispheric laterality in animals and the effects of early experience , 1981, Behavioral and Brain Sciences.

[33]  A. Galaburda,et al.  Neocortical asymmetry and open-field behavior in the rat , 1984, Experimental Neurology.

[34]  A M Galaburda,et al.  La région de Broca: observations anatomiques faites un siècle après la mort de son découvreur. , 1980 .

[35]  N. Geschwind,et al.  Human Brain: Cytoarchitectonic Left-Right Asymmetries in the Temporal Speech Region , 1978 .

[36]  W. Krieg Connections of the cerebral cortex. I. The albino rat. A. Topography of the cortical areas , 1946 .

[37]  L. Weiskrantz On the Role of Cerebral Commissures in Animals , 1979 .

[38]  V. Braitenberg,et al.  Exceptions to bilateral symmetry in the epithalamus of lower vertebrates , 1970, The Journal of comparative neurology.

[39]  P. Rakić,et al.  Elimination of neurons from the rhesus monkey's lateral geniculate nucleus during development , 1988, The Journal of comparative neurology.

[40]  S. F. Witelson,et al.  Left hemisphere specialization for language in the newborn. Neuroanatomical evidence of asymmetry. , 1973, Brain : a journal of neurology.

[41]  W. Krieg Connections of the cerebral cortex. I. The albino rat. B. Structure of the cortical areas , 1946, The Journal of comparative neurology.

[42]  Albert M. Galaburda,et al.  Cerebral dominance : the biological foundations , 1984 .

[43]  A. Galaburda,et al.  [Broca's region: anatomic remarks made a century after the death of its discoverer]. , 1980, Revue neurologique.

[44]  M. LeMay,et al.  Human brain--morphologic differences in the hemispheres demonstrable by carotid arteriography. , 1972, The New England journal of medicine.

[45]  G. D. Rosen,et al.  Histological Asymmetry in the Primary Visual Cortex of the Rat: Implications for Mechanisms of Cerebral Asymmetry , 1986, Cortex.

[46]  A. Reiner,et al.  Habenular asymmetry and the central connections of the parietal eye of the lizard , 1981, The Journal of comparative neurology.

[47]  Andrew Kertesz,et al.  Cerebral dominance, sex, and callosal size inMRI , 1987, Neurology.