药理再生感觉毛细胞可恢复传入神经支配和前庭功能。

Hanae Lahlou,Hong Zhu,Wu Zhou,Albert Sb Edge
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引用次数: 0

摘要

传递听觉和平衡信号的感觉细胞是高度特化的机械感受器,称为毛细胞,位于内耳的感觉上皮细胞中。由于哺乳动物的前庭器官无法再生具有生理活性的毛细胞,毒素暴露和年龄增长造成的毛细胞损失会导致平衡失调,而且基本上是不可逆的。在这里,我们用糖原合酶激酶 3β 和组蛋白去乙酰化酶抑制剂的组合治疗小鼠前庭损伤模型,结果显示毛细胞大量再生。这些药物刺激支持细胞增殖并分化成毛细胞。新的毛细胞被前庭传入神经元重新支配,通过恢复头部平移诱发的耳石传入反应和前庭反射来挽救耳石功能。因此,再生毛细胞的药物是治疗平衡失调的一种潜在治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pharmacological regeneration of sensory hair cells restores afferent innervation and vestibular function.
The sensory cells that transduce the signals for hearing and balance are highly specialized mechanoreceptors called hair cells that reside in the sensory epithelia of the inner ear. Loss of hair cells from toxin exposure and age can cause balance disorders and is essentially irreversible due to the inability of mammalian vestibular organs to regenerate physiologically active hair cells. Here, we show substantial regeneration of hair cells in a mouse model of vestibular damage by treatment with a combination of glycogen synthase kinase 3β and histone deacetylase inhibitors. The drugs stimulated supporting cell proliferation and differentiation into hair cells. The new hair cells were reinnervated by vestibular afferent neurons, rescuing otolith function by restoring head translation-evoked otolith afferent responses and vestibuloocular reflexes. Drugs that regenerate hair cells thus represent a potential therapeutic approach to the treatment of balance disorders.
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