中国神经再生研究(英文版)2020,Vol.15Issue(3):382-389,8.DOI:10.4103/1673-5374.266044
Molecular complexity of visual mapping: a challenge for regenerating therapy
摘要
Abstract
Investigating the cellular and molecular mechanisms involved in the development of topographically or-dered connections in the central nervous system constitutes an important issue in neurobiology because these connections are the base of the central nervous system normal function. The dominant model to study the development of topographic maps is the projection from the retinal ganglion cells to the optic tectum/colliculus. The expression pattern of Eph/ephrin system in opposing gradients both in the retina and the tectum, labels the local addresses on the target and gives specific sensitivities to growth cones ac-cording to their topographic origin in the retina. The rigid precision of normal retinotopic mapping has prompted the chemoaffinity hypothesis, positing axonal targeting to be based on fixed biochemical affini-ties between fibers and targets. However, several lines of evidence have shown that the mapping can adjust to experimentally modified targets with flexibility, demonstrating the robustness of the guidance process. Here we discuss the complex ways the Ephs and ephrins interact allowing to understand how the retinotec-tal mapping is a precise but also a flexible process.关键词
axon growth/ axon guidance/ development/ Eph and ephrin/ mapping/ regeneration/ retinal ganglion cells/ retino-tectal systemKey words
axon growth/ axon guidance/ development/ Eph and ephrin/ mapping/ regeneration/ retinal ganglion cells/ retino-tectal system引用本文复制引用
Mara Medori,Gonzalo Spelzini,Gabriel Scicolone..Molecular complexity of visual mapping: a challenge for regenerating therapy[J].中国神经再生研究(英文版),2020,15(3):382-389,8.基金项目
Funding: This work was supported by Consejo Nacional de Investigaciones Científicas y Técnicas (PIP 00441) (PIP 00441)
Universidad de Buenos Aires (M 00526BA, 00769BA, both to GS). (M 00526BA, 00769BA, both to GS)
