Lang Hainan, Schulte Bradley A, Zhou Daohong, Smythe Nancy, Spicer Samuel S, Schmiedt Richard A
Department of Pathology and Laboratory Medicine, Medical University of South Carolina, Charleston, South Carolina 29425, USA.
J Neurosci. 2006 Mar 29;26(13):3541-50. doi: 10.1523/JNEUROSCI.2488-05.2006.
Degeneration of the spiral ganglion neurons (SGNs) of the auditory nerve occurs with age and in response to acoustic injury. Histopathological observations suggest that the neural degeneration often begins with an excitotoxic process affecting the afferent dendrites under the inner hair cells (IHCs), however, little is known about the sequence of cellular or molecular events mediating this excitotoxicity. Nuclear factor kappaB (NFkappaB) is a transcription factor involved in regulating inflammatory responses and apoptosis in many cell types. NFkappaB is also associated with intracellular calcium regulation, an important factor in neuronal excitotoxicity. Here, we provide evidence that NFkappaB can play a central role in the degeneration of SGNs. Mice lacking the p50 subunit of NFkappaB (p50(-/-) mice) showed an accelerated hearing loss with age that was highly associated with an exacerbated excitotoxic-like damage in afferent dendrites under IHCs and an accelerated loss of SGNs. Also, as evidenced by immunostaining intensity, calcium-buffering proteins were significantly elevated in SGNs of the p50(-/-) mice. Finally, the knock-out mice exhibited an increased sensitivity to low-level noise exposure. The accelerated hearing loss and neural degeneration with age in the p50(-/-) mice occurred in the absence of concomitant hair cell loss and decline of the endocochlear potential. These results indicate that NFkappaB activity plays an important role in protecting the primary auditory neurons from excitotoxic damage and age-related degeneration. A possible mechanism underlying this protection is that the NFkappaB activity may help to maintain calcium homeostasis in SGNs.
听神经螺旋神经节神经元(SGNs)的退化会随着年龄增长以及对声学损伤的反应而发生。组织病理学观察表明,神经退化通常始于影响内毛细胞(IHCs)下方传入树突的兴奋性毒性过程,然而,关于介导这种兴奋性毒性的细胞或分子事件序列却知之甚少。核因子κB(NFκB)是一种转录因子,参与调节多种细胞类型中的炎症反应和细胞凋亡。NFκB还与细胞内钙调节有关,而细胞内钙调节是神经元兴奋性毒性中的一个重要因素。在此,我们提供证据表明NFκB在SGNs的退化中可发挥核心作用。缺乏NFκB p50亚基的小鼠(p50-/-小鼠)随着年龄增长出现听力损失加速,这与IHCs下方传入树突中加剧的兴奋性毒性样损伤以及SGNs的加速丧失高度相关。此外,免疫染色强度证明,p50-/-小鼠的SGNs中钙缓冲蛋白显著升高。最后,基因敲除小鼠对低水平噪声暴露表现出更高的敏感性。p50-/-小鼠随着年龄增长出现的听力损失加速和神经退化是在没有伴随毛细胞损失和内淋巴电位下降的情况下发生的。这些结果表明,NFκB活性在保护初级听觉神经元免受兴奋性毒性损伤和与年龄相关的退化方面发挥着重要作用。这种保护作用的一个可能机制是NFκB活性可能有助于维持SGNs中的钙稳态。