Division of Integrative Bioscience, Tottori University Graduate School of Medical Sciences, Yonago, Japan.
Division of Neuroscience, School of Life Science, Faculty of Medicine, Tottori University, Yonago, Japan.
Front Neural Circuits. 2021 Apr 16;15:637638. doi: 10.3389/fncir.2021.637638. eCollection 2021.
Monocular deprivation (MD) of vision during early postnatal life induces amblyopia, and most neurons in the primary visual cortex lose their responses to the closed eye. Anatomically, the somata of neurons in the closed-eye recipient layer of the lateral geniculate nucleus (LGN) shrink and their axons projecting to the visual cortex retract. Although it has been difficult to restore visual acuity after maturation, recent studies in rodents and cats showed that a period of exposure to complete darkness could promote recovery from amblyopia induced by prior MD. However, in cats, which have an organization of central visual pathways similar to humans, the effect of dark rearing only improves monocular vision and does not restore binocular depth perception. To determine whether dark rearing can completely restore the visual pathway, we examined its effect on the three major concomitants of MD in individual visual neurons, eye preference of visual cortical neurons and soma size and axon morphology of LGN neurons. Dark rearing improved the recovery of visual cortical responses to the closed eye compared with the recovery under binocular conditions. However, geniculocortical axons serving the closed eye remained retracted after dark rearing, whereas reopening the closed eye restored the soma size of LGN neurons. These results indicate that dark rearing incompletely restores the visual pathway, and thus exerts a limited restorative effect on visual function.
单眼剥夺(MD)在生命早期剥夺视觉会引起弱视,并且初级视觉皮层中的大多数神经元会失去对闭眼的反应。从解剖学上看,外侧膝状体核(LGN)闭眼接受层中神经元的胞体缩小,其投射到视觉皮层的轴突回缩。尽管在成熟后很难恢复视力,但最近在啮齿动物和猫中的研究表明,一段时间的完全黑暗暴露可以促进先前 MD 诱导的弱视的恢复。然而,在组织上与人相似的中央视觉通路的猫中,暗养仅能改善单眼视觉,而不能恢复双眼深度知觉。为了确定暗养是否可以完全恢复视觉通路,我们检查了其对单个视觉神经元中 MD 的三个主要伴随物的影响,即视皮层神经元的眼偏爱以及 LGN 神经元的胞体大小和轴突形态。暗养改善了视觉皮层对闭眼的反应恢复,与双眼条件下的恢复相比。然而,暗养后服务于闭眼的视束皮质轴突仍然回缩,而重新打开闭眼则恢复了 LGN 神经元的胞体大小。这些结果表明,暗养不能完全恢复视觉通路,因此对视觉功能的恢复作用有限。
