Division of Life Science, State Key Laboratory of Molecular Neuroscience, The Hong Kong University of Science and Technology, Hong Kong, China.
Dev Dyn. 2012 Oct;241(10):1562-74. doi: 10.1002/dvdy.23845. Epub 2012 Aug 28.
During vertebrate neuromuscular junction (NMJ) development, contact between motor axons and muscle fibers is followed by pre- and post-synaptic specialization. Using Xenopus nerve-muscle cocultures, we recently showed that spinal neurons initially contacted muscle cells by means of filopodial processes, and that muscle-derived basic fibroblast growth factor induced axonal filopodia and slowed axonal advance to promote nerve-muscle interaction and NMJ establishment. In contrast, neurotrophins enhanced axonal growth but suppressed the extension of axonal filopodia and blocked NMJ formation.
Here we report that hepatocyte growth factor (HGF), which also supports motor neuron survival, was expressed by Xenopus muscle cells, and that forced expression of HGF in Xenopus spinal neurons inhibited the extension of axonal filopodia. Overexpression of the HGF-receptor c-Met in neurons also blocked the formation of axonal filopodia and furthermore sped up axonal growth, but a kinase-dead form of c-Met was unable to effect these changes. Importantly, treatment of nerve-muscle cocultures with recombinant HGF or the expression of HGF or active c-Met in neurons, or that of excess HGF in muscle, inhibited nerve-induced AChR clustering in muscle.
Our results suggest that HGF/c-Met signaling in neurons promotes axonal growth but suppresses filopodial assembly in neurons and hinders NMJ establishment.
在脊椎动物神经肌肉接头(NMJ)发育过程中,运动轴突与肌肉纤维接触后,突触前和突触后会发生特化。我们最近利用非洲爪蟾的神经-肌肉共培养实验证明,脊髓神经元最初通过丝状伪足与肌肉细胞接触,而肌肉衍生的碱性成纤维细胞生长因子(bFGF)诱导轴突丝状伪足形成,并减缓轴突前进速度,从而促进神经-肌肉相互作用和 NMJ 的建立。相比之下,神经营养因子增强了轴突生长,但抑制了轴突丝状伪足的延伸,并阻止了 NMJ 的形成。
我们发现,肝细胞生长因子(HGF)也能支持运动神经元的存活,它在非洲爪蟾肌肉细胞中表达,而在非洲爪蟾脊髓神经元中强制表达 HGF 会抑制轴突丝状伪足的延伸。神经元中超表达 HGF 受体 c-Met 也会阻止轴突丝状伪足的形成,并进一步加速轴突生长,但 c-Met 的激酶失活形式则无法产生这些变化。重要的是,用重组 HGF 处理神经-肌肉共培养物,或在神经元中表达 HGF 或活性 c-Met,或在肌肉中表达过量的 HGF,均可抑制神经诱导的肌肉 AChR 聚集。
我们的结果表明,神经元中的 HGF/c-Met 信号通路促进轴突生长,但抑制神经元中丝状伪足的组装,并阻碍 NMJ 的建立。
