A Command Chemical Triggers an Innate Behavior by Sequential Activation of Multiple Peptidergic Ensembles

Kim, Young-Joon; Žitňan, Dušan; Galizia, C. Giovanni; Cho, Kook-Ho; Adams, Michael E.

Publikation:
A Command Chemical Triggers an Innate Behavior by Sequential Activation of Multiple Peptidergic Ensembles

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Kim06_CurrBiol.pdfGröße: 983.16 KBDownloads: 546

Datum

2006

Autor:innen

Kim, Young-Joon

Žitňan, Dušan

Galizia, C. Giovanni

Cho, Kook-Ho

Adams, Michael E.

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Open Access Green

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Biologie: Publikationen

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Current Biology. 2006, 16(14), pp. 1395-1407. ISSN 0960-9822. Available under: doi: 10.1016/j.cub.2006.06.027

Zusammenfassung

Background: At the end of each molt, insects shed their old cuticle by performing the ecdysis sequence, an innate behavior consisting of three steps: pre-ecdysis, ecdysis, and postecdysis. Blood-borne ecdysis-triggering hormone (ETH) activates the behavioral sequence through direct actions on the central nervous system.
Results: To elucidate neural substrates underlying the ecdysis sequence, we identified neurons expressing ETH receptors (ETHRs) in Drosophila. Distinct ensembles of ETHR neurons express numerous neuropeptides including kinin, FMRFamides, eclosion hormone (EH), crustacean cardioactive peptide (CCAP), myoinhibitory peptides (MIP), and bursicon. Real-time imaging of intracellular calcium dynamics revealed sequential activation of these ensembles after ETH action. Specifically, FMRFamide neurons are activated during pre-ecdysis; EH, CCAP, and CCAP/MIP neurons are active prior to and during ecdysis; and activity of CCAP/MIP/bursicon neurons coincides with postecdysis. Targeted ablation of specific ETHR ensembles produces behavioral deficits consistent with their proposed roles in the behavioral sequence.
Conclusions: Our findings offer novel insights into how a command chemical orchestrates an innate behavior by stepwise recruitment of central eptidergic ensembles.

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570 Biowissenschaften, Biologie

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ISO 690

KIM, Young-Joon, Dušan ŽITŇAN, C. Giovanni GALIZIA, Kook-Ho CHO, Michael E. ADAMS, 2006. A Command Chemical Triggers an Innate Behavior by Sequential Activation of Multiple Peptidergic Ensembles. In: Current Biology. 2006, 16(14), pp. 1395-1407. ISSN 0960-9822. Available under: doi: 10.1016/j.cub.2006.06.027

BibTex

@article{Kim2006Comma-7390,
  year={2006},
  doi={10.1016/j.cub.2006.06.027},
  title={A Command Chemical Triggers an Innate Behavior by Sequential Activation of Multiple Peptidergic Ensembles},
  number={14},
  volume={16},
  issn={0960-9822},
  journal={Current Biology},
  pages={1395--1407},
  author={Kim, Young-Joon and Žitňan, Dušan and Galizia, C. Giovanni and Cho, Kook-Ho and Adams, Michael E.}
}

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    <dcterms:abstract xml:lang="eng">Background: At the end of each molt, insects shed their old cuticle by performing the ecdysis sequence, an innate behavior consisting of three steps: pre-ecdysis, ecdysis, and postecdysis. Blood-borne ecdysis-triggering hormone (ETH) activates the behavioral sequence through direct actions on the central nervous system.&lt;br /&gt;Results: To elucidate neural substrates underlying the ecdysis sequence, we identified neurons expressing ETH receptors (ETHRs) in Drosophila. Distinct ensembles of ETHR neurons express numerous neuropeptides including kinin, FMRFamides, eclosion hormone (EH), crustacean cardioactive peptide (CCAP), myoinhibitory peptides (MIP), and bursicon. Real-time imaging of intracellular calcium dynamics revealed sequential activation of these ensembles after ETH action. Specifically, FMRFamide neurons are activated during pre-ecdysis; EH, CCAP, and CCAP/MIP neurons are active prior to and during ecdysis; and activity of CCAP/MIP/bursicon neurons coincides with postecdysis. Targeted ablation of specific ETHR ensembles produces behavioral deficits consistent with their proposed roles in the behavioral sequence.&lt;br /&gt;Conclusions: Our findings offer novel insights into how a command chemical orchestrates an innate behavior by stepwise recruitment of central eptidergic ensembles.</dcterms:abstract>
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Publikation: A Command Chemical Triggers an Innate Behavior by Sequential Activation of Multiple Peptidergic Ensembles

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Publikation:
A Command Chemical Triggers an Innate Behavior by Sequential Activation of Multiple Peptidergic Ensembles