丙戊酸通过表观遗传染色质重塑调节失明大鼠的大脑可塑性:对人类视力恢复的影响。

I Fetter-Pruneda, R Martínez-Méndez, L Olivos-Cisneros, D Diaz, P Padilla-Cortés, A Báez-Saldaña, G Gutiérrez-Ospina
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引用次数: 0

摘要

失明是一种普遍存在的感官状况,给日常生活活动带来各种困难。在盲人个体中,大脑经历了大规模的重组,其特征是与体感和听觉功能相关的皮质区域扩大,以及前视觉区域的招募来进行双峰体感和听觉整合。这给盲人重新分配视觉功能的努力带来了障碍,特别是在致瘤敏感期结束后。设计药理学措施来调节大脑可塑性的大小,可以提高我们恢复盲人视觉功能的机会。本研究以大鼠初级体感皮层(S1)为工作模型,研究人员发现,通过母乳给药的丙戊酸通过延缓神经元组蛋白去乙酰化来阻止盲鼠皮层重组。这些结果表明,在未来,我们可能能够设计出表观遗传药理学措施,通过调节发育关键时期大脑可塑性的大小,提高我们将视觉功能重新分配给盲人曾经被剥夺的前视觉皮层的机会。
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Valproic acid modulates brain plasticity through epigenetic chromatin remodeling in the blind rat: implications for human sight recovery.

Blindness is a pervasive sensory condition that imposes diverse difficulties to carry on with activities of daily living. In blind individuals, the brain is subjected to a large scale reorganization characterized by expanded cortical territories associated with somatosensory and auditory functions and the recruitment of the former visual areas to perform bimodal somatosensory and auditory integration. This poses obstacles to efforts aimed at reassigning visual functions to the recruited visual cortex in the blind, especially after the end of the ontogentic sensitive period. Devising pharmacological measures to modulate the magnitude of brain plasticity could improve our chances of recovering visual functions in the blind. Here, by using the primary somatosensory cortex (S1) in the rat as a working model, we showed that valproic acid administered through the mother's milk prevents cortical reorganization in blinded rats by delaying neuronal histone de-acetylation. These results suggest that in the future, we might be able to devise epigenetic pharmacological measures that could improve our chances of reassigning visual functions to the once deprived former visual cortex in the blind, by modulating the magnitude of brain plasticity during critical times of development.

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