Unilateral eye enucleation in adult rats causes neuronal loss in the contralateral superior colliculus

S. A. SMITH; K. S. BEDI

doi:10.1046/j.1469-7580.1997.19040481.x

Abstract

Several studies have reported the morphological changes induced by unilateral enucleation during early neonatal life on the developing visual system. This study has examined cellular changes in the superior colliculi by removal of a single eye in adult rats. Anaesthetised male hooded rats aged 90 d had their right eyes removed. Groups of nonenucleated control and enucleated rats were killed when aged either 150 or 390 d. The brains were removed and both the right and left superior colliculi dissected out. The volume of the stratum griseum superficiale (SGS) within these colliculi was estimated stereologically by light microscopy, as well as the numerical density and total number of neurons within this cell layer. The volume of the cell layer was reduced by about 40% on the side contralateral to the enucleated eye but not on the ipsilateral side at both survival periods examined. The numerical density of neurons within the SGS was unaffected by the enucleation so that the colliculi contralateral to the enucleated eye showed a substantial loss of neurons within this cell layer. This study demonstrates the importance of the retinal ganglion cell input, even in adult animals, for maintaining the viability of neurons in the SGS layer of the superior colliculus.

Crossref Citations

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Duelli, R. Maurer, M.H. and Kuschinsky, W. 1998. Decreased glucose transporter densities, rate constants and glucose utilization in visual structures of rat brain during chronic visual deprivation. Neuroscience Letters, Vol. 250, Issue. 1, p. 49.

Smith, S.A. and Bedi, K.S. 1998. Unilateral enucleation of adult rats does not effect the synapse-to-neuron ratio within the stratum griseum superficiale of the superior colliculi. Vision Research, Vol. 38, Issue. 20, p. 3041.

Korkmaz, A. Çiftçi, N. Boşnak, M. and Agˇar, E. 2000. A simplified application of systematic field sampling and low‐cost video recording set‐up for viewing disector pairs – exemplified in the rat cochlear nucleus. Journal of Microscopy, Vol. 200, Issue. 3, p. 269.

Rodger, J. Lindsey, K. A. Leaver, S. G. King, C. E. Dunlop, S. A. and Beazley, L. D. 2001. Expression of ephrin‐A2 in the superior colliculus and EphA5 in the retina following optic nerve section in adult rat. European Journal of Neuroscience, Vol. 14, Issue. 12, p. 1929.

Marchant, Elliott G and Morin, L.P 2001. Light augments FOS protein induction in brain of short-term enucleated hamsters. Brain Research, Vol. 902, Issue. 1, p. 51.

Díaz, Florentina Moreno, Paloma Villena, Alicia Vidal, Lourdes and Pérez De Vargas, Ignacio 2003. Effects of aging on neurons and glial cells from the superficial layers of the superior colliculus in rats. Microscopy Research and Technique, Vol. 62, Issue. 5, p. 431.

Con, Nurhan Canbilen, Aydan Bradley, Philip M. and Kaplan, Suleyman 2003. Quantitative features of the nucleus rotundus in the brain of pre- and post-hatch chicks. Developmental Brain Research, Vol. 146, Issue. 1-2, p. 71.

Turner, J. P. Sauvé, Y. Varela‐Rodriguez, C. Lund, R. D. and Salt, T. E. 2005. Recruitment of local excitatory circuits in the superior colliculus following deafferentation and the regeneration of retinocollicular inputs. European Journal of Neuroscience, Vol. 22, Issue. 7, p. 1643.

Chacur, Marucia Matos, Rhowena J.B. Batista, Samuel S. Kihara, Alexandre H. and Britto, Luiz R.G. 2006. Differential regulation of the neuronal isoform of nitric oxide synthase in the superior colliculus and dorsal lateral geniculate nucleus of the adult rat brain following eye enucleation. International Journal of Developmental Neuroscience, Vol. 24, Issue. 7, p. 461.

Rodger, Jennifer and Frost, Douglas O. 2009. Effects of trkB knockout on topography and ocular segregation of uncrossed retinal projections. Experimental Brain Research, Vol. 195, Issue. 1, p. 35.

Hernandes, M.S. Britto, L.R.G. Real, C.C. Martins, D.O. and Lopes, L.R. 2010. Reactive oxygen species and the structural remodeling of the visual system after ocular enucleation. Neuroscience, Vol. 170, Issue. 4, p. 1249.

Hernandes, Marina S. Lima, Larissa S. Scavone, Cristoforo Lopes, Lucia R. and Britto, Luiz R.G. 2012. Eye enucleation activates the transcription nuclear factor kappa-B in the rat superior colliculus. Neuroscience Letters, Vol. 521, Issue. 2, p. 104.

Hernandes, Marina S. and Britto, Luiz R.G. 2014. Inflammatory responses in the rat superior colliculus after eye enucleation. Brain Research Bulletin, Vol. 101, Issue. , p. 1.

Cecchetti, Luca Ricciardi, Emiliano Handjaras, Giacomo Kupers, Ron Ptito, Maurice and Pietrini, Pietro 2016. Congenital blindness affects diencephalic but not mesencephalic structures in the human brain. Brain Structure and Function, Vol. 221, Issue. 3, p. 1465.

Byun, Haewon Lee, Hae-Lim Liu, Hong Forrest, Douglas Rudenko, Andrii and Kim, In-Jung 2019. Rorβ regulates selective axon-target innervation in the mammalian midbrain. Development, Vol. 146, Issue. 14,

Touj, Sara Gallino, Daniel Chakravarty, Mallar M. Bronchti, Gilles and Piché, Mathieu 2021. Structural brain plasticity induced by early blindness. European Journal of Neuroscience, Vol. 53, Issue. 3, p. 778.

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Unilateral eye enucleation in adult rats causes neuronal loss in the contralateral superior colliculus

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Unilateral eye enucleation in adult rats causes neuronal loss in the contralateral superior colliculus

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