生物
细胞生物学
秀丽隐杆线虫
基底膜
形态发生
发育生物学
表皮(动物学)
神经科学
解剖
基因
遗传学
作者
Jiale Fan,Tingting Ji,Kai Wang,Jichang Huang,Mengqing Wang,Laura Manning,Xiaohua Dong,Yanjun Shi,Xumin Zhang,Zhiyong Shao,Daniel A. Colón‐Ramos
出处
期刊:eLife
[eLife Sciences Publications Ltd]
日期:2020-04-07
卷期号:9
被引量:20
摘要
Synaptic positions underlie precise circuit connectivity. Synaptic positions can be established during embryogenesis and sustained during growth. The mechanisms that sustain synaptic specificity during allometric growth are largely unknown. We performed forward genetic screens in C. elegans for regulators of this process and identified mig-17, a conserved ADAMTS metalloprotease. Proteomic mass spectrometry, cell biological and genetic studies demonstrate that MIG-17 is secreted from cells like muscles to regulate basement membrane proteins. In the nematode brain, the basement membrane does not directly contact synapses. Instead, muscle-derived basement membrane coats one side of the glia, while glia contact synapses on their other side. MIG-17 modifies the muscle-derived basement membrane to modulate epidermal-glial crosstalk and sustain glia location and morphology during growth. Glia position in turn sustains the synaptic pattern established during embryogenesis. Our findings uncover a muscle-epidermis-glia signaling axis that sustains synaptic specificity during the organism’s allometric growth.
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