Abstract
The structural integrity of synaptic connections critically depends on the interaction between synaptic cell adhesion molecules (CAMs) and the underlying actin and microtubule cytoskeleton. This interaction is mediated by giant Ankyrins, that act as specialized adaptors to establish and maintain axonal and synaptic compartments. In Drosophila, two giant isoforms of Ankyrin2 (Ank2) control synapse stability and organization at the larval neuromuscular junction (NMJ). Both Ank2-L and Ank2-XL are highly abundant in motoneuron axons and within the presynaptic terminal, where they control synaptic CAMs distribution and organization of microtubules. Here, we address the role of the conserved N-terminal ankyrin repeat domain (ARD) for subcellular localization and function of these giant Ankyrins in vivo. We used a P[acman] based rescue approach to generate deletions of ARD subdomains, that contain putative binding sites of interacting transmembrane proteins. We show that specific subdomains control synaptic but not axonal localization of Ank2-L. These domains contain binding sites to L1-family member CAMs, and we demonstrate that these regions are necessary for the organization of synaptic CAMs and for the control of synaptic stability. In contrast, presynaptic Ank2-XL localization only partially depends on the ARD but strictly requires the presynaptic presence of Ank2-L demonstrating a critical co-dependence of the two isoforms at the NMJ. Ank2-XL dependent control of microtubule organization correlates with presynaptic abundance of the protein and is thus only partially affected by ARD deletions. Together, our data provides novel insights into the synaptic targeting of giant Ankyrins with relevance for the control of synaptic plasticity and maintenance.
Highlights
Structural integrity of cellular compartments depends on the coordinated control of cell-cell interactions mediated by cell adhesion molecules (CAMs) and the underlying cytoskeleton
By utilizing Drosophila in vivo genetics, we address the importance of individual repeat units within the ankyrin repeat domain (ARD) for the localization, maintenance and function of giant Ankyrin2 proteins at the synapse
It has been previously demonstrated that Ank2-L is essential for synapse stability and controls the synaptic localization of Ank2-XL that in turn contributes to presynaptic bouton organization via interactions with Futsch and the microtubule cytoskeleton (Stephan et al, 2015)
Summary
Structural integrity of cellular compartments depends on the coordinated control of cell-cell interactions mediated by cell adhesion molecules (CAMs) and the underlying cytoskeleton. In vertebrate neurons giant Ankyrins are essential for the clustering and maintenance of voltage-gated channels at the axon initial segment and the nodes of Ranvier (Zhang and Rasband, 2016) In both vertebrate and invertebrate neurons, giant Ankyrins contribute to the organization of axonal and synaptic protein domains and synaptic stability (Chen et al, 2001; Pielage et al, 2008; Enneking et al, 2013; Smith et al, 2014; Stephan et al, 2015). While targeting and organization of the AIS and nodes of Ranvier by giant Ankyrins is relatively well understood (Zhang and Rasband, 2016) we currently have only limited knowledge regarding the molecular mechanisms mediating the localization and organizational roles of giant Ankyrins at pre- and postsynaptic compartments in vivo
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