Author:
Wang Qi,Friend Lindsey,Vicidomini Rosario,Han Tae Hee,Nguyen Peter,Ting Chun-Yuan,Serpe Mihaela
Abstract
ABSTRACTWe have previously reported that Drosophila Tenectin (Tnc) recruits αPS2/βPS integrin to ensure structural and functional integrity at larval NMJs (Wang et al., 2018). In muscles, Tnc/integrin engages the spectrin network to regulate the size and architecture of synaptic boutons. In neurons, Tnc/integrin controls neurotransmitter release. Here we show that presynaptic Tnc/integrin modulates the synaptic accumulation of key active zone components, including the Ca2+ channel Cac and the active zone scaffold Brp. Presynaptic α-Spectrin appears to be both required and sufficient for the recruitment of Cac and Brp. We visualized the endogenous α-Spectrin and found that Tnc controls spectrin recruitment at synaptic terminals. Thus, Tnc/integrin anchors the presynaptic spectrin network and ensures the proper assembly and function of the active zones. Since pre- and postsynaptic Tnc/integrin limit each other, we hypothesize that this pathway links dynamic changes within the synaptic cleft to changes in synaptic structure and function.
Publisher
Cold Spring Harbor Laboratory
Reference55 articles.
1. Presynaptic DLG regulates synaptic function through the localization of voltage-activated Ca(2+) Channels;Scientific reports,2016
2. Spectrin- and Ankyrin-Based Membrane Domains and the Evolution of Vertebrates
3. Integrins regulate DLG/FAS2 via a CaM kinase II-dependent pathway to mediate synapse elaboration and stabilization during postembryonic development;Development,2002
4. Targeted gene expression as a means of altering cell fates and generating dominant phenotypes;Development,1993
5. Selected Methods for the Anatomical Study of Drosophila Embryonic and Larval Neuromuscular Junctions