Zinc finger protein too few controls the development of monoaminergic neurons

Gil Levkowitz; Jörg Zeller; Howard I. Sirotkin; Dorothy French; Sarah Schilbach; Hisashi Hashimoto; Masahiko Hibi; William S. Talbot; Arnon Rosenthal

doi:10.1038/nn979

Zinc finger protein too few controls the development of monoaminergic neurons

Gil Levkowitz
, Jörg Zeller
, Howard I. Sirotkin
, Dorothy French
, Sarah Schilbach
, Hisashi Hashimoto
, Masahiko Hibi
, William S. Talbot
, Arnon Rosenthal

Neurobiology and Behavior

Rinat Neuroscience
Genentech, Inc
The University of Osaka
RIKEN
Stanford University

Research output: Contribution to journal › Article › peer-review

88 Scopus citations

Abstract

The mechanism controlling the development of dopaminergic (DA) and serotonergic (5HT) neurons in vertebrates is not well understood. Here we characterized a zebrafish mutant - too few (tof - that develops hindbrain 5HT and noradrenergic neurons, but does not develop hypothalamic DA and 5HT neurons. tof encodes a forebrain-specific zinc finger transcription repressor that is homologous to the mammalian Fezl (forebrain embryonic zinc finger-like protein). Mosaic and co-staining analyses showed that fezl was not expressed in DA or 5HT neurons and instead controlled development of these neurons non-cell-autonomously. Both the eh1-related repressor motif and the second zinc finger domain were necessary for tof function. Our results indicate that tof/fezl is a key component in regulating the development of monoaminergic neurons in the vertebrate brain.

Original language	English
Pages (from-to)	28-33
Number of pages	6
Journal	Nature Neuroscience
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/nn979
State	Published - Jan 1 2003

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abstract = "The mechanism controlling the development of dopaminergic (DA) and serotonergic (5HT) neurons in vertebrates is not well understood. Here we characterized a zebrafish mutant - too few (tof - that develops hindbrain 5HT and noradrenergic neurons, but does not develop hypothalamic DA and 5HT neurons. tof encodes a forebrain-specific zinc finger transcription repressor that is homologous to the mammalian Fezl (forebrain embryonic zinc finger-like protein). Mosaic and co-staining analyses showed that fezl was not expressed in DA or 5HT neurons and instead controlled development of these neurons non-cell-autonomously. Both the eh1-related repressor motif and the second zinc finger domain were necessary for tof function. Our results indicate that tof/fezl is a key component in regulating the development of monoaminergic neurons in the vertebrate brain.",

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AU - Levkowitz, Gil

AU - Zeller, Jörg

AU - Sirotkin, Howard I.

AU - French, Dorothy

AU - Schilbach, Sarah

AU - Hashimoto, Hisashi

AU - Hibi, Masahiko

AU - Talbot, William S.

AU - Rosenthal, Arnon

PY - 2003/1/1

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N2 - The mechanism controlling the development of dopaminergic (DA) and serotonergic (5HT) neurons in vertebrates is not well understood. Here we characterized a zebrafish mutant - too few (tof - that develops hindbrain 5HT and noradrenergic neurons, but does not develop hypothalamic DA and 5HT neurons. tof encodes a forebrain-specific zinc finger transcription repressor that is homologous to the mammalian Fezl (forebrain embryonic zinc finger-like protein). Mosaic and co-staining analyses showed that fezl was not expressed in DA or 5HT neurons and instead controlled development of these neurons non-cell-autonomously. Both the eh1-related repressor motif and the second zinc finger domain were necessary for tof function. Our results indicate that tof/fezl is a key component in regulating the development of monoaminergic neurons in the vertebrate brain.

AB - The mechanism controlling the development of dopaminergic (DA) and serotonergic (5HT) neurons in vertebrates is not well understood. Here we characterized a zebrafish mutant - too few (tof - that develops hindbrain 5HT and noradrenergic neurons, but does not develop hypothalamic DA and 5HT neurons. tof encodes a forebrain-specific zinc finger transcription repressor that is homologous to the mammalian Fezl (forebrain embryonic zinc finger-like protein). Mosaic and co-staining analyses showed that fezl was not expressed in DA or 5HT neurons and instead controlled development of these neurons non-cell-autonomously. Both the eh1-related repressor motif and the second zinc finger domain were necessary for tof function. Our results indicate that tof/fezl is a key component in regulating the development of monoaminergic neurons in the vertebrate brain.

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Zinc finger protein too few controls the development of monoaminergic neurons

Abstract

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