Elin Kronander scite author profile

Large excitatory synapses with multiple active zones ensure reliable and fast information transfer at specific points in neuronal circuits. However, the mechanisms that determine synapse size in CNS circuits are largely unknown. Here we use the calyx of Held synapse, a major relay in the auditory system, to identify and study signaling pathways that specify large nerve terminal size and fast synaptic transmission. Using genome-wide screening, we identified bone morphogenetic proteins (BMPs) as candidate signaling molecules in the area of calyx synapses. Conditional deletion of BMP receptors in the auditory system of mice led to aberrations of synapse morphology and function specifically at the calyx of Held, with impaired nerve terminal growth, loss of monoinnervation and less mature transmitter release properties. Thus, BMP signaling specifies large and fast-transmitting synapses in the auditory system in a process that shares homologies with, but also extends beyond, retrograde BMP signaling at Drosophila neuromuscular synapses.

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An organotypic slice culture to study the formation of calyx of Held synapses in-vitro

Kronander

Michalski

Lebrand

et al. 2017

PLoS ONE

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The calyx of Held, a large axo-somatic relay synapse containing hundreds of presynaptic active zones, is possibly the largest nerve terminal in the mammalian CNS. Studying its initial growth in-vitro might provide insights into the specification of synaptic connection size in the developing brain. However, attempts to maintain calyces of Held in organotypic cultures have not been fruitful in past studies. Here, we describe an organotypic slice culture method in which calyces of Held form in-vitro. We made coronal brainstem slices with an optimized slice angle using newborn mice in which calyces have not yet formed; the presynaptic bushy cells were genetically labeled using the Math5 promoter. After six to nine days of culturing, we readily observed large Math5—positive nerve terminals in the medial nucleus of the trapezoid body (MNTB), but not in the neighboring lateral superior olive nucleus (LSO). These calyx—like synapses expressed the Ca2+- sensor Synaptotagmin-2 (Syt-2) and the Ca2+ binding protein Parvalbumin (PV), two markers of developing calyces of Held in vivo. Application of the BMP inhibitor LDN-193189 significantly inhibited the growth of calyx synapses, demonstrating the feasibility of long-term pharmacological manipulation using this organotypic culture method. These experiments provide a method for organotypic culturing of calyces of Held, and show that the formation of calyx—like synapses onto MNTB neurons can be preserved in-vitro. Furthermore, our study adds pharmacological evidence for a role of BMP-signaling in the formation of large calyx of Held synapses.

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Role of BMP Signaling for the Formation of Auditory Brainstem Nuclei and Large Auditory Relay Synapses

Kronander

Clark

Schneggenburger

2019

Developmental Neurobiology

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Large excitatory synapses are found at specific points in the neuronal circuits of the auditory brainstem, to enable fast information transfer and the preservation of acoustic timing information. The extracellular cues and signaling mechanisms that lead to the development of these specialized synaptic connections, exemplified by the calyx of Held in the medial nucleus of the trapezoid body (MNTB), are still largely unknown. Here, we investigate the role of BMP signaling for the early development of the ventral cochlear nucleus (VCN) and MNTB, and for the initial formation of the calyx of Held synaptic connection. We used conditional alleles of two BMP type‐1 receptors in the background of a constitutive BMPR1b knock‐out (KO), or else a conditional allele of SMAD4. The conditional alleles were recombined by the Krox20Cre mouse line that is active around mid‐gestation in rhombomeres (r) 3 and 5 from which the VCN and MNTB are derived; alternatively, virus‐mediated Cre‐expression was performed early postnatally in the VCN. The data show that embryonic SMAD‐dependent BMP‐signaling in r3 and r5 contributes to the histogenesis of auditory brainstem nuclei. On the other hand, BMP‐receptor signaling early postnatally in presynaptic neurons of the calyx of Held projection is necessary for correct axon branch retraction, which suggests a cell‐autonomous role of presynaptic BMP‐receptors in synapse elimination at the developing calyx of Held. Thus, our work dissects developmentally early and late roles of BMP‐signaling for the formation of auditory brainstem nuclei, and the highly specialized synaptic connectivity in these structures.

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Genetic dissection of the role of BMP signaling for the development of the auditory brainstem nuclei and the large calyx of Held synapse

Kronander¹

2016

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ELIXIR-CONVERGE D1.1 Best Practices 1v0

Jareborg¹,

Flora

Hooft³

et al. 2021

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Elin Kronander

BMP signaling specifies the development of a large and fast CNS synapse

An organotypic slice culture to study the formation of calyx of Held synapses in-vitro

Role of BMP Signaling for the Formation of Auditory Brainstem Nuclei and Large Auditory Relay Synapses

Genetic dissection of the role of BMP signaling for the development of the auditory brainstem nuclei and the large calyx of Held synapse

ELIXIR-CONVERGE D1.1 Best Practices 1v0

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