Abstract
Synapses are highly specialized for neurotransmitter signaling, yet activity-dependent growth factor release also plays critical roles at synapses. While efficient neurotransmitter signaling relies on precise apposition of release sites and neurotransmitter receptors, molecular mechanisms enabling high-fidelity growth factor signaling within the synaptic microenvironment remain obscure. Here we show that the auxiliary calcium channel subunit α2δ-3 promotes the function of an activity-dependent autocrine Bone Morphogenetic Protein (BMP) signaling pathway at the Drosophila neuromuscular junction (NMJ). α2δ proteins have conserved synaptogenic activity, although how they execute this function has remained elusive. We find that α2δ-3 provides an extracellular scaffold for an autocrine BMP signal, suggesting a mechanistic framework for understanding α2δ’s conserved role in synapse organization. We further establish a transcriptional requirement for activity-dependent, autocrine BMP signaling in determining synapse density, structure, and function. We propose that activity-dependent, autocrine signals provide neurons with continuous feedback on their activity state for modulating both synapse structure and function.
Highlights
Synapses are highly specialized for neurotransmitter signaling, yet activity-dependent growth factor release plays critical roles at synapses
Loss of Bone Morphogenetic Protein (BMP) signaling causes a reduction in neuromuscular junction (NMJ) size as judged by bouton number—as well as ultrastructural defects, reduced evoked glutamate release, and impaired homeostatic plasticity[21,25,26,27]
Lending key support to this idea, Gbb is trafficked to presynaptic terminals, where it is subject to activity-dependent release[24]
Summary
Synapses are highly specialized for neurotransmitter signaling, yet activity-dependent growth factor release plays critical roles at synapses. We show that the auxiliary calcium channel subunit α2δ-3 promotes the function of an activity-dependent autocrine Bone Morphogenetic Protein (BMP) signaling pathway at the Drosophila neuromuscular junction (NMJ). While roles for activity-dependent cues at synapses are indisputable, the molecular links between activity and synapse differentiation remain poorly defined To establish these connections, it is imperative to define when and where activitydependent cues are released, and how these extracellular signals impinge on synapse morphology and function. Α2δ proteins are well-positioned to impact the activity of synaptic signals They are best studied as accessory calcium channel subunits and are composed of two disulfide-linked peptides: an entirely extracellular α2 peptide and a δ peptide predicted to be membrane-associated via a GPI link[8,9]. We propose that α2δ-3 is a key component of the synaptic cleft microenvironment serving to limit the diffusion of extracellular Gbb
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