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牙髓细胞产生神经营养因子,在体外与三叉神经元相互作用,并在脊髓损伤后拯救运动神经元。

Dental pulp cells produce neurotrophic factors, interact with trigeminal neurons in vitro, and rescue motoneurons after spinal cord injury.

作者信息

Nosrat I V, Widenfalk J, Olson L, Nosrat C A

机构信息

Laboratory of Oral Neurobiology, University of Michigan School of Dentistry, Ann Arbor, Michigan 48109, USA.

出版信息

Dev Biol. 2001 Oct 1;238(1):120-32. doi: 10.1006/dbio.2001.0400.

Abstract

Interactions between ingrowing nerve fibers and their target tissues form the basis for functional connectivity with the central nervous system. Studies of the developing dental pulp innervation by nerve fibers from the trigeminal ganglion is an excellent example of nerve-target tissue interactions and will allow specific questions regarding development of the dental pulp nerve system to be addressed. Dental pulp cells (DPC) produce an array of neurotrophic factors during development, suggesting that these proteins might be involved in supporting trigeminal nerve fibers that innervate the dental pulp. We have established an in vitro culture system to study the interactions between the dental pulp cells and trigeminal neurons. We show that dental pulp cells produce several neurotrophic factors in culture. When DPC are cocultured with trigeminal neurons, they promote survival and a specific and elaborate neurite outgrowth pattern from trigeminal neurons, whereas skin fibroblasts do not provide a similar support. In addition, we show that dental pulp tissue becomes innervated when transplanted ectopically into the anterior chamber of the eye in rats, and upregulates the catecholaminergic nerve fiber density of the irises. Interestingly, grafting the dental pulp tissue into hemisected spinal cord increases the number of surviving motoneurons, indicating a functional bioactivity of the dental pulp-derived neurotrophic factors in vivo by rescuing motoneurons. Based on these findings, we propose that dental pulp-derived neurotrophic factors play an important role in orchestrating the dental pulp innervation.

摘要

向内生长的神经纤维与其靶组织之间的相互作用构成了与中枢神经系统功能连接的基础。对三叉神经节神经纤维支配牙髓发育的研究是神经-靶组织相互作用的一个绝佳例子,这将有助于解决有关牙髓神经系统发育的具体问题。牙髓细胞(DPC)在发育过程中产生一系列神经营养因子,这表明这些蛋白质可能参与支持支配牙髓的三叉神经纤维。我们建立了一个体外培养系统来研究牙髓细胞与三叉神经元之间的相互作用。我们发现牙髓细胞在培养中产生多种神经营养因子。当DPC与三叉神经元共培养时,它们能促进三叉神经元的存活以及特定且精细的神经突生长模式,而皮肤成纤维细胞则不能提供类似的支持。此外,我们发现牙髓组织异位移植到大鼠眼前房时会被神经支配,并上调虹膜的儿茶酚胺能神经纤维密度。有趣的是,将牙髓组织移植到半横断脊髓中会增加存活运动神经元的数量,这表明牙髓衍生的神经营养因子在体内通过挽救运动神经元具有功能性生物活性。基于这些发现,我们提出牙髓衍生的神经营养因子在牙髓神经支配的协调中起重要作用。

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