Selection of appropriate medial branch of the optic tract by fibres of ventral retinal origin during development and in regeneration: an autoradiographic study in Xenopus.

The formation of the branches of the optic tract has been studied with the use of [3H]proline autoradiography, during development and during regeneration of the optic nerve in Xenopus with one compound ventral (VV) eye made by the embryonic fusion of two ventral eye fragments. The formation of the optic pathway was abnormal in that the lateral branch failed to develop, suggesting that fibres from a VV retina selectively entered the tectum via the medial branch during development. Three months after section of the optic nerve of a VV eye, regenerated fibres were present both in the contralateral and ipsilateral tecta. On the ipsilateral side regenerated fibres entered the tectum via the medial branch only. Retinal fibres entered the contralateral tectum through both branches in some animals and through the medial branch only in others. It is concluded that mechanical factors alone are insufficient to explain the phenomenon of selection of the appropriate medial branch by fibres of ventral retinal origin either during development or in regeneration. Some form of fibre-substrate interaction seems to be necessary; and this ability of fibres from a VV eye to take the path appropriate for ventral retina argues strongly that the VV eye is not a regulated system in terms of cell specificities.

[1]  Roger W. Sperry,et al.  RESTORATION OF VISION AFTER CROSSING OF OPTIC NERVES AND AFTER CONTRALATERAL TRANSPLANTATION OF EYE , 1945 .

[2]  M. Jacobson,et al.  A study of the retinotectal projection during regeneration of the optic nerve in the frog , 1963, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[3]  S. Udin Rearrangements of the retinotectal projection in Rana pipiens after unilateral caudal half‐tectum ablation , 1977, The Journal of comparative neurology.

[4]  R. M. Gaze,et al.  Further studies on the restoration of the contralateral retinotectal projection following regeneration of the optoc nerve in the frog. , 1970, Brain research.

[5]  R. M. Gaze,et al.  The retino‐tectal projection in Xenopus with compound eyes , 1963, The Journal of physiology.

[6]  J. Faber,et al.  Normal table of Xenopus laevis (Daudin). A systematical and chronological survey of the development from the fertilized egg till the end of metamorphosis. , 1956 .

[7]  R. M. Gaze,et al.  The diencephalic course of regenerating retinotectal fibres in Xenopus tadpoles. , 1978, Journal of embryology and experimental morphology.

[8]  J. Cook,et al.  The multiple factors determining retinotopic order in the growth of optic fibres into the optic tectum. , 1977, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[9]  S. Udin Permanent disorganization of the regenerating optic tract in the frog , 1978, Experimental Neurology.

[10]  K. Straznicky,et al.  Aberrant ipsilateral retinotectal projection following optic nerve section in Xenopus , 1978, Neuroscience Letters.

[11]  K. Straznicky Reorganization of retinotectal projection of compound eyes after various tectal lesions in Xenopus. , 1976, Journal of embryology and experimental morphology.

[12]  G. Székely,et al.  Golgi studies on the optic center of the frog. , 1967, Journal fur Hirnforschung.

[13]  M. Jacobson,et al.  Discontinuous mapping of retina onto tectum innervated by both eyes , 1975, Brain Research.

[14]  R. Sperry,et al.  Preferential selection of central pathways by regenerating optic fibers. , 1963, Experimental neurology.

[15]  T. Horder Changes of fibre pathways in the goldfish optic tract following regeneration. , 1974, Brain research.

[16]  R. M. Gaze The Problem of Specificity in the Formation of Nerve Connections , 1978 .

[17]  K. Fite,et al.  A retinotopic analysis of the central connections of the optic nerve in the frog , 1974, The Journal of comparative neurology.

[18]  R. M. Gaze,et al.  The retinotectal projection from a double-ventral compound eye in Xenopus laevis. , 1974, Journal of embryology and experimental morphology.

[19]  Roger W. Sperry,et al.  OPTIC NERVE REGENERATION WITH RETURN OF VISION IN ANURANS , 1944 .

[20]  R. Sperry Visuomotor coordination in the newt (triturus viridescens) after regeneration of the optic nerve , 1943 .

[21]  J. A. Simpson,et al.  THE FORMATION OF NERVE CONNECTIONS , 1973 .