Meyer M, Matsuoka I, Wetmore C, Olson L, Thoenen H
Max-Planck Institute for Psychiatry, Department of Neurochemistry, Martinsried, Germany.
J Cell Biol. 1992 Oct;119(1):45-54. doi: 10.1083/jcb.119.1.45.
Nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF) are molecules which regulate the development and maintenance of specific functions in different populations of peripheral and central neurons, amongst them sensory neurons of neural crest and placode origin. Under physiological conditions NGF is synthesized by peripheral target tissues, whereas BDNF synthesis is highest in the CNS. This situation changes dramatically after lesion of peripheral nerves. As previously shown, there is a marked rapid increase in NGF mRNA in the nonneuronal cells of the damaged nerve. The prolonged elevation of NGF mRNA levels is related to the immigration of activated macrophages, interleukin-1 being the most essential mediator of this effect. Here we show that transsection of the rat sciatic nerve also leads to a very marked increase in BDNF mRNA, the final levels being even ten times higher than those of NGF mRNA. However, the time-course and spatial pattern of BDNF mRNA expression are distinctly different. There is a continuous slow increase of BDNF mRNA starting after day 3 post-lesion and reaching maximal levels 3-4 wk later. These distinct differences suggest different mechanisms of regulation of NGF and BDNF synthesis in non-neuronal cells of the nerve. This was substantiated by the demonstration of differential regulation of these mRNAs in organ culture of rat sciatic nerve and Schwann cell culture. Furthermore, using bioassays and specific antibodies we showed that cultured Schwann cells are a rich source of BDNF- and ciliary neurotrophic factor (CNTF)-like neurotrophic activity in addition to NGF. Antisera raised against a BDNF-peptide demonstrated BDNF-immunoreactivity in pure cultured Schwann cells, but not in fibroblasts derived from sciatic nerve.
神经生长因子(NGF)和脑源性神经营养因子(BDNF)是调节外周和中枢不同神经元群特定功能的发育和维持的分子,其中包括神经嵴和基板来源的感觉神经元。在生理条件下,NGF由外周靶组织合成,而BDNF在中枢神经系统中的合成最高。外周神经损伤后,这种情况会发生显著变化。如先前所示,受损神经的非神经元细胞中NGF mRNA会迅速显著增加。NGF mRNA水平的持续升高与活化巨噬细胞的迁移有关,白细胞介素-1是这种作用的最关键介质。在这里我们表明,大鼠坐骨神经横断也会导致BDNF mRNA非常显著的增加,最终水平甚至比NGF mRNA高十倍。然而,BDNF mRNA表达的时间进程和空间模式明显不同。BDNF mRNA在损伤后第3天开始持续缓慢增加,并在3 - 4周后达到最高水平。这些明显的差异表明神经非神经元细胞中NGF和BDNF合成的调节机制不同。在大鼠坐骨神经器官培养和雪旺细胞培养中对这些mRNA的差异调节证明了这一点。此外,使用生物测定和特异性抗体我们表明,培养的雪旺细胞除了NGF外,还是BDNF和睫状神经营养因子(CNTF)样神经营养活性的丰富来源。针对BDNF肽产生的抗血清在纯培养的雪旺细胞中显示出BDNF免疫反应性,但在坐骨神经来源的成纤维细胞中未显示。