Transcytosis-mediated anterograde transport of the receptor TrkA mediates the formation of presynaptic sites in sympathetic neurons

跨细胞 细胞生物学 索马 轴突 轴浆运输 原肌球蛋白受体激酶A 生物 受体 化学 神经元 神经传递 神经突 转运蛋白 内体 突触 轴突终末 神经科学 信号转导 细胞器 两亲素 囊泡转运蛋白 神经生长因子 内吞作用 胞吐 舱室(船)
作者
Guillermo Moya‐Alvarado,Sebastian M. Markert,Sumana Raychaudhuri,Matthew Tachoute,Shigeki Watanabe,Rejji Kuruvilla
出处
期刊:Science Signaling [American Association for the Advancement of Science]
卷期号:19 (937): eaea7078-eaea7078
标识
DOI:10.1126/scisignal.aea7078
摘要

In neurons, many membrane proteins that are synthesized in the cell body must be efficiently delivered to axons to regulate neuronal connectivity. Transcytosis is an atypical transport mode in which membrane proteins internalized from soma membranes are transported to axons in an anterograde fashion. Here, we characterized the trafficking dynamics and mechanism of transcytosis of the receptor TrkA from the soma in response to nerve growth factor (NFG) signaling at the axon in mouse sympathetic neurons. Live imaging and electron microscopy of compartmentalized cultures revealed that soma surface-derived TrkA proteins underwent dynamic transport in axons, with changes in speed, direction, and the vesicular organelles that carried them as they moved from proximal to distal axon compartments. In mice, soma surface-labeled TrkA proteins were observed in sympathetic nerve terminals, demonstrating that transcytosis occurs in vivo. Transcytosed TrkA proteins were enriched at presynaptic varicosities, bouton-like structures that store and release neurotransmitters. Disrupting its transcytosis by introducing a point mutation into TrkA reduced the number and size of presynaptic sites and decreased synaptic transmission in vivo and in culture. These findings provide mechanistic insight into an atypical mode of receptor trafficking and demonstrate its physiological relevance in sympathetic neuron connectivity in mice.
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