2022
DOI: 10.1523/jneurosci.2463-21.2022
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Electrophysiological Validation of Monosynaptic Connectivity between Premotor Interneurons and the aCC Motoneuron in the Drosophila Larval CNS

Abstract: The Drosophila connectome project aims to map the synaptic connectivity of entire larval and adult fly neural networks, which is essential for understanding nervous system development and function.So far, the project has produced an impressive amount of electron microscopy data that has facilitated reconstructions of specific synapses, including many in the larval locomotor circuit. While this breakthrough represents a technical tour-de-force, the data remain under-utilised, partly due to a lack of functional … Show more

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Cited by 8 publications
(5 citation statements)
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“…An organism as simple as Drosophila larva, uses these PMN-PMN motifs to (i) exert antagonistic effects on downstream MNs, (ii) prevent premature activation of MNs, (iii) restrict duration of excitatory inputs onto MNs, and (iv) shut down the MNs once their activity is no longer needed. Our work supports the notion that EM reconstruction of neuroanatomical connectome is necessary but not sufficient to fully understand how neural circuits works [50]. The discovery of bi-modal and dedicated PMNs clearly demonstrate that a given neuroanatomical circuit may not necessarily act the same way during different behaviors.…”
Section: Discussionsupporting
confidence: 80%
“…An organism as simple as Drosophila larva, uses these PMN-PMN motifs to (i) exert antagonistic effects on downstream MNs, (ii) prevent premature activation of MNs, (iii) restrict duration of excitatory inputs onto MNs, and (iv) shut down the MNs once their activity is no longer needed. Our work supports the notion that EM reconstruction of neuroanatomical connectome is necessary but not sufficient to fully understand how neural circuits works [50]. The discovery of bi-modal and dedicated PMNs clearly demonstrate that a given neuroanatomical circuit may not necessarily act the same way during different behaviors.…”
Section: Discussionsupporting
confidence: 80%
“…Motoneuron activity reflects the integration of the excitatory and inhibitory premotor synaptic drive to which the cell is exposed. We therefore tested the effect of embryonic exposure to PTX on the synaptic drive provided by two identified premotor interneurons – one exciter and one inhibitor – which are monosynaptically connected to aCC ( Giachello et al, 2022 ). Specifically, we quantified the strength of cholinergic excitor A18a (a.k.a.…”
Section: Resultsmentioning
confidence: 99%
“…However, the effects of activity perturbation on the specific cellular components of the locomotor network have not been identified. Here, we make use of the output of the connectome project to focus attention on excitatory cholinergic A18a ( Hasegawa et al, 2016 ) and inhibitory GABAergic A31k ( Schneider-Mizell et al, 2016 ) interneurons, as well as the aCC motoneuron which these interneurons are monosynaptically connected to ( Giachello et al, 2022 ). Specifically, we perform patch-clamp experiments on aCC to show how synaptic connectivity of these single-cell types (A18a or A31k) is influenced following activity perturbation during the embryonic CP.…”
Section: Introductionmentioning
confidence: 99%
“…The Drosophila larval connectome provides great promise for identifying those components of the larval CPG that are altered following activity perturbation during a CP. We have recently validated monosynaptic connectivity, that had been predicted by the connectome, for four identified premotor interneurons (INs) with the aCC motoneuron (Zarin et al, 2019;Giachello et al, 2022). These cells are the cholinergic excitors A27h and A18a, and the GABAergic inhibitors A23a and A31K.…”
Section: Synaptic Excitation Is Influenced Following Activity Perturb...mentioning
confidence: 91%