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Flight initiation and maintenance deficits in flies with genetically altered biogenic amine levels
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CONTRIBUTORS:
  Author Brembs, Björn (Freie Universität Berlin)
  Author Christiansen, Frauke
  Author Pflüger, Jochen
  Author Duch, Carsten
JOURNAL:
  The journal of neuroscience: The official journal of the Society for Neuroscience, 27(41), 11122 - 11131.
YEAR: 2007
PUB TYPE: Journal Article
SUBJECT(S): Neuroscience, biology,drosophila,flight,octopamine, biogenic amine
DISCIPLINE: Biology
HTTP: http://www.jneurosci.org/cgi/content/abstract/27/41/11122
LANGUAGE: English
PUB ID: 103-437-774 (Last edited on 2007/10/15 08:23:29 GMT-6)
SPONSOR(S):
 
ABSTRACT:
Insect flight is one of the fastest, most intense and most energy-demanding motor behaviors. It is modulated on multiple levels by the biogenic amine octopamine. Within the CNS, octopamine acts directly on the flight central pattern generator, and it affects motivational states. In the periphery, octopamine sensitizes sensory receptors, alters muscle contraction kinetics, and enhances flight muscle glycolysis. This study addresses the roles for octopamine and its precursor tyramine in flight behavior by genetic and pharmacological manipulation in Drosophila. Octopamine is not the natural signal for flight initiation because flies lacking octopamine [tyramine-ß-hydroxylase (TßH) null mutants] can fly. However, they show profound differences with respect to flight initiation and flight maintenance compared with wild-type controls. The morphology, kinematics, and development of the flight machinery are not impaired in TßH mutants because wing-beat frequencies and amplitudes, flight muscle structure, and overall dendritic structure of flight motoneurons are unaffected in TßH mutants. Accordingly, the flight behavior phenotypes can be rescued acutely in adult flies. Flight deficits are rescued by substituting octopamine but also by blocking the receptors for tyramine, which is enriched in TßH mutants. Conversely, ablating all neurons containing octopamine or tyramine phenocopies TßH mutants. Therefore, both octopamine and tyramine systems are simultaneously involved in regulating flight initiation and maintenance. Different sets of rescue experiments indicate different sites of action for both amines. These findings are consistent with a complex system of multiple amines orchestrating the control of motor behaviors on multiple levels rather than single amines eliciting single behaviors.
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