Summary
In an effort to assess the innate capacity of the central visual system to specify corticocortical connectivity in the absence of retinal afferents, we examined the tangential distribution of callosal cells and terminations in posterior neocortex of congenitally anophthalmic rats. Although our results indicate that the callosal pattern is clearly anomalous in these rats, all features of the normal visual callosal pattern are recognizable in mutant rats, indicating that central visual pathways can generate many aspects of normal interhemispheric connectivity in the absence of input from the periphery. On the other hand, the presence of anomalies in the pattern indicates that the eyes are necessary to finetune the distribution of callosal connections at some developemental stage. Moreover, the fact that abnormalities in the callosal pattern of mutant rats are the same as those previusly described in rats enucleated at birth suggests that the eyes begin to exert their influence on callosal development after birth.
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References
Bravo H, Torrealba F (1983) Conexiones visuales callosas en ratas grises. Estudio experimental mediante transporte anterogrado y retrogrado de HRP. Arch Biol Med Exp 16: R-140
Bunt SM, Lund RD, Land PW (1983) Prenatal development of the optic projections in albino and hooded rats. Dev Brain Res 6: 149–168
Caviness VS (1975) Architectonic map of neocortex of the normal mouse. J Comp Neurol 164: 247–264
Chase HB, Chase EB (1941) Studies on an anophthalmic strain of mice. I. Embryology of the eye region. J Morphol 68: 279–301
Cusick CG, Lund RD (1981) The distribution of the callosal projection to the occipital visual cortex in rats and mice. Brain Res 214: 239–259
Cusick CG, Lund RD (1982) Modification of visual callosal projections in rats. J Comp Neurol 212: 385–398
González O, Ruiz G, Vargas L (1984) Contribución a la caracterización de la cepa de rats KV. VI Congreso Nacional de Nutrición y Alimentación. Revista Chilena de Nutrición 12: 112
Kawada ME, Vargas L (1981) Selección de ratas hiper-reactoras al stress y con disminución de tolerancia a la glucosa. XIV Reunión Anual Sociedad de Genética de Chile. Arch Biol Med Exp 14: R-64
Kawada ME, Vargas L (1983) Décima generación filial de un linaje de ratas con susceptibilidad al stress y a “diabetes” química. V Congreso Latinoamericano de Diabetes. Rev Med Chile 111: R-41
Kobayashi K, Otani K (1981) Morphogenesis of the hereditary microphthalmia in a new strain of rat. J Morphol 167: 265–276
Krieg WJS (1946) Connections of the cerebral cortex. I. The albino rat. B. Structure of the cortical areas. J Comp Neurol 84: 277–234
Lund RD, Chang F-LF, Land PW (1984) The development of callosal projections in normal and one-eyed rats. Dev Brain Res 14: 139–142
Lund RD, Mustari MJ (1977) Development of the geniculocortical pathway in rats. J Comp Neurol 173: 289–306
Mesulam MM (1978) Tetramethyl benzidine for horseradish peroxidase neurohistochemistry: a non-carcinogenic blue reaction product with superior sensitivity for visualizing neural afferents and efferents. J Histochem Cytochem 26: 106–117
Miller MW, Vogt BA (1984) The postnatal growth of the callosal connections of primary and secondary visual cortex in the rat. Dev Brain Res 14: 304–309
Olavarria J, Montero VM (1984) Relation of callosal and striate-extrastriate cortical connections in the rat: morphological definition of extrastriate visual areas. Exp Brain Res 54: 240–252
Olavarria J, Van Sluyters RC (1984) Callosal connections of the posterior cortex in normal-eyed, congenitally anophthalmic and neonatally enucleated mice. J Comp Neurol 230: 249–268
Olavarria J, Van Sluyters RC (1985) Organization and postnatal development of callosal connections in the visual cortex of the rat. J Comp Neurol 239: 1–26
Olavarria J, Van Sluyters RC, Killackey HP (1984) Evidence for the complimentary organization of callosal and thalamic connections within rat somatosensory cortex. Brain Res 291: 364–368
Olavarria J, Malach R, Van Slyuters RC (1987) Development of visual callosal connections in neonatally enucleated rats. J Comp Neurol 260: 320–348
Rhoades RW, Monney RD, Fish SE (1984) A comparison of visual callosal organization in normal, bilaterally enucleated and congenitally anophthalmic mice. Exp Brain Res 56: 92–105
Sugita S, Otani K (1983) Quantitative analysis of the lateral geniculate nucleus in the mutant microphthalmic rat. Exp Neurol 82: 413–423
Sugita S, Otani K (1984) Quantitative analysis of the striate cortex in the mutant microphthalmic rat. Exp Neurol 85: 584–596
Wise SP, Jones EG (1976) The organization and postnatal development of the commissural projection of the rat somatic sensory cortex. J Comp Neurol 168: 313–344
Wise SP, Jones EG (1978) Developmental studies of thalamocortical and commissural connections in the rat somatic sensory cortex. J Comp Neurol 178: 187–208
Záborszky L, Wolff JR (1982) Distribution patterns and individual variations of callosal connections in albino rat. Anat Embryol 165: 213–232
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Olavarria, J., Bravo, H. & Ruiz, G. The pattern of callosal connections in posterior neocortex of congenitally anophthalmic rats. Anat Embryol 178, 155–159 (1988). https://doi.org/10.1007/BF02463649
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DOI: https://doi.org/10.1007/BF02463649