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12-P010 Role of LIM homedomain transcription factors LHX7 and ISL1 in the specification of mouse basal forebrain cholinergic neurons
S192
MECHANISMS OF DEVELOPMENT
1 2 6 (2 0 0 9) S1 8 9–S 19 4
12-P010
onds after the embryos were flashed with a bright light. To try
Role of LIM homedomain transcription factors LHX7 and ISL1 in
to establish a relation between the observed phenotype and neu-
the specification of mouse basal forebrain cholinergic neurons
ron activity, a high-throughput chemical screen was made. This
Rita
Lopes1, Angela Tye1, Sylvia Evans2, Robin Lovell-Badge1,
consisted in flashing wild type embryos treated with a small
Vassilis Pachnis1
chemical molecule that supposedly affects the neural system.
1
NIMR, MRC, London, United Kingdom
We could conclude that after treating the embryos with different
2
University of California San Diego, La Jolla, CA, United States The forebrain cholinergic system consists of the cholinergic
interneurons of the striatum and projection neurons that are distributed in loosely defined groups along the basal forebrain. Forebrain cholinergic neurons (FCNs) are born between E11 and E15, begin to express cholinergic markers at late embryonic stages, invade their projection target areas postnatally and continue to mature for weeks after birth. Little is known about the cell-intrin-
compounds they still looked normal with regular light, but behaved differently after being flashed. The phenotypes were divided in six categories: healthy sedatives, excitatory extenders, latency extenders, general stimulants, magnitude stimulants and refractory period stimulants. Our preliminary results have the potential to make this assay an easy, fast and essential method to test new drugs implicated with neurological diseases – presently we are screening for new agonists and suppressors of known drugs used to treat well-known neurological disorders.
sic factors that regulate this process. FCNs derive from NKX2.1 precursors that upon exiting the cell
doi:10.1016/j.mod.2009.06.465
cycle express the LIM homeodomain proteins LHX7 and ISL1. Our group and others have shown that deletion of Lhx7 leads to a reduction of 80% in the number of FCNs. In particular, studies
12-P012
from our group have demonstrated that in the striatum of Lhx7
A bioinformatic and in situ screen for novel axon guidance
null mice the missing cholinergic interneurons are respecified
molecules
as GABAergic interneurons (Fragkouli et al., submitted). Similarly,
Samantha
deletion of Isl1 results in a dramatic reduction in the number of
Tear
Alsbury1, Tatsuya Okafuji2, Kevin J. Mitchell2, Guy
1
FCNs . To gain further insight into the role of LHX7 and ISL1 in the development and maintenance of the FCNs we have generated and analyzed an Lhx7 conditional knockout. Here we describe
1
MRC Centre for Developmental Neurobiology, Kings College London,
London, United Kingdom 2
Smurfit Institute of Genetics, Trinity College London, Dublin, Ireland
the effect of deleting Lhx7 at embryonic and postnatal stages using the Nkx2.1-Cre and Isl1-Cre lines and an inducible Cre line.
Previous screens for axon guidance molecules have identified
We also report on studies addressing the role of Isl1 in the devel-
that many of the molecular cues and their axonal receptors fall
opment of FCNs. We discuss the role of LIM HD transcription fac-
into a few major classes that are conserved from invertebrates
tors in the development of FCNs and in the plasticity of
to vertebrates. While it has been speculated that the majority of
cholinergic phenotype at different pre and postnatal stages.
axon guidance molecules have already been discovered it seems likely that many such molecules would have been missed due
doi:10.1016/j.mod.2009.06.464
to experimental biases in the genetic or biochemical methods used to identify them. Additionally it seems unlikely that sufficient molecules have been identified to encode the complete wiring of the embryonic nervous system. In order to identify further
12-P011
axon guidance molecules we have taken a systematic bioinfor-
Understanding neurons through light: A novel behavioral assay
matic approach to identify novel transmembrane proteins that
Rita Mateus, David Kokel, Randall Peterson
contain any of a number of motifs previously found in known
Cardiovascular Research Center, Massachusetts General Hospital, Charlestown, Massachusetts, United States
axon guidance molecules. These axon guidance motifs include, for example, immunoglobulin (Ig) motifs, fibronectin-type III (FN3) motifs, leucine-rich repeats (LRR) and epidermal growth factor (EGF) repeats amongst others. This screen has identified 162
The ability of neurons to sense is a remarkable capacity pres-
genes in Drosophila that fulfil these criteria and their expression
ent throughout the animal world, supplying both survival and
patterns were subsequently determined by in situ hybridization.
developmental skills to the organism. The zebrafish are no excep-
This study yielded 41 candidate axon guidance molecules that
tion and, during development, neural activity is necessary to help
show neural expression in the embryo during the period of axon
target motorneuron axons to their peripheral destinations – this
extension. These include 9 genes that appear to have orthologues
property has been linked to the activity of the Rohon-Beard
in vertebrates including the CG32635/Neto and Ten/Odz families.
mechanosensory neurons and it is seen by the regular movement
We are now carrying out functional analyses to assess the
of the embryo tail after 18 h post fertilization (hpf).
involvement of these genes in axon guidance in the embryo.
We report a novel light-associated behavior present in wild type zebrafish embryos aged between 28 and 35 hpf. This consists in an abrupt reaction by trembling and shivering for some sec-
doi:10.1016/j.mod.2009.06.466
MECHANISMS OF DEVELOPMENT
1 2 6 (2 0 0 9) S1 8 9–S 19 4
12-P010
onds after the embryos were flashed with a bright light. To try
Role of LIM homedomain transcription factors LHX7 and ISL1 in
to establish a relation between the observed phenotype and neu-
the specification of mouse basal forebrain cholinergic neurons
ron activity, a high-throughput chemical screen was made. This
Rita
Lopes1, Angela Tye1, Sylvia Evans2, Robin Lovell-Badge1,
consisted in flashing wild type embryos treated with a small
Vassilis Pachnis1
chemical molecule that supposedly affects the neural system.
1
NIMR, MRC, London, United Kingdom
We could conclude that after treating the embryos with different
2
University of California San Diego, La Jolla, CA, United States The forebrain cholinergic system consists of the cholinergic
interneurons of the striatum and projection neurons that are distributed in loosely defined groups along the basal forebrain. Forebrain cholinergic neurons (FCNs) are born between E11 and E15, begin to express cholinergic markers at late embryonic stages, invade their projection target areas postnatally and continue to mature for weeks after birth. Little is known about the cell-intrin-
compounds they still looked normal with regular light, but behaved differently after being flashed. The phenotypes were divided in six categories: healthy sedatives, excitatory extenders, latency extenders, general stimulants, magnitude stimulants and refractory period stimulants. Our preliminary results have the potential to make this assay an easy, fast and essential method to test new drugs implicated with neurological diseases – presently we are screening for new agonists and suppressors of known drugs used to treat well-known neurological disorders.
sic factors that regulate this process. FCNs derive from NKX2.1 precursors that upon exiting the cell
doi:10.1016/j.mod.2009.06.465
cycle express the LIM homeodomain proteins LHX7 and ISL1. Our group and others have shown that deletion of Lhx7 leads to a reduction of 80% in the number of FCNs. In particular, studies
12-P012
from our group have demonstrated that in the striatum of Lhx7
A bioinformatic and in situ screen for novel axon guidance
null mice the missing cholinergic interneurons are respecified
molecules
as GABAergic interneurons (Fragkouli et al., submitted). Similarly,
Samantha
deletion of Isl1 results in a dramatic reduction in the number of
Tear
Alsbury1, Tatsuya Okafuji2, Kevin J. Mitchell2, Guy
1
FCNs . To gain further insight into the role of LHX7 and ISL1 in the development and maintenance of the FCNs we have generated and analyzed an Lhx7 conditional knockout. Here we describe
1
MRC Centre for Developmental Neurobiology, Kings College London,
London, United Kingdom 2
Smurfit Institute of Genetics, Trinity College London, Dublin, Ireland
the effect of deleting Lhx7 at embryonic and postnatal stages using the Nkx2.1-Cre and Isl1-Cre lines and an inducible Cre line.
Previous screens for axon guidance molecules have identified
We also report on studies addressing the role of Isl1 in the devel-
that many of the molecular cues and their axonal receptors fall
opment of FCNs. We discuss the role of LIM HD transcription fac-
into a few major classes that are conserved from invertebrates
tors in the development of FCNs and in the plasticity of
to vertebrates. While it has been speculated that the majority of
cholinergic phenotype at different pre and postnatal stages.
axon guidance molecules have already been discovered it seems likely that many such molecules would have been missed due
doi:10.1016/j.mod.2009.06.464
to experimental biases in the genetic or biochemical methods used to identify them. Additionally it seems unlikely that sufficient molecules have been identified to encode the complete wiring of the embryonic nervous system. In order to identify further
12-P011
axon guidance molecules we have taken a systematic bioinfor-
Understanding neurons through light: A novel behavioral assay
matic approach to identify novel transmembrane proteins that
Rita Mateus, David Kokel, Randall Peterson
contain any of a number of motifs previously found in known
Cardiovascular Research Center, Massachusetts General Hospital, Charlestown, Massachusetts, United States
axon guidance molecules. These axon guidance motifs include, for example, immunoglobulin (Ig) motifs, fibronectin-type III (FN3) motifs, leucine-rich repeats (LRR) and epidermal growth factor (EGF) repeats amongst others. This screen has identified 162
The ability of neurons to sense is a remarkable capacity pres-
genes in Drosophila that fulfil these criteria and their expression
ent throughout the animal world, supplying both survival and
patterns were subsequently determined by in situ hybridization.
developmental skills to the organism. The zebrafish are no excep-
This study yielded 41 candidate axon guidance molecules that
tion and, during development, neural activity is necessary to help
show neural expression in the embryo during the period of axon
target motorneuron axons to their peripheral destinations – this
extension. These include 9 genes that appear to have orthologues
property has been linked to the activity of the Rohon-Beard
in vertebrates including the CG32635/Neto and Ten/Odz families.
mechanosensory neurons and it is seen by the regular movement
We are now carrying out functional analyses to assess the
of the embryo tail after 18 h post fertilization (hpf).
involvement of these genes in axon guidance in the embryo.
We report a novel light-associated behavior present in wild type zebrafish embryos aged between 28 and 35 hpf. This consists in an abrupt reaction by trembling and shivering for some sec-
doi:10.1016/j.mod.2009.06.466