- Email: [email protected]
20-P028 A fatemap of placodes in Xenopus laevis
S312
MECHANISMS OF DEVELOPMENT
1 2 6 (2 0 0 9) S3 0 5–S 31 3
20-P025
causes similar pupal lethal phenotypes, suggesting that upper
Cell migration in vivo; determining the function of Ena
and lower threshold levels of PCM are important.
Philippa Tucker, Iwan Evans, Will Wood
doi:10.1016/j.mod.2009.06.859
University of Bath, Avon, United Kingdom Cell migration has been studied extensively in vitro, however, fewer studies address this subject in vivo. Our aim is to deter-
20-P027
mine in vivo, the role of the actin regulatory protein, Ena. To
The 50 –30 exoribonuclease Pacman affects expression of JNK
enable this we are studying Drosophila hemocytes in the devel-
transcripts and has specific effects in Drosophila development
oping embryo. Hemocytes are the primary immune cells of Dro-
Christopher I. Jones, Dominic P. Grima, Sarah F. Newbury
sophila and during development they follow stereotyped pathways to distribute throughout the embryo. Using the
Brighton and Sussex Medical School, Brighton, United Kingdom
Gal4UAS system to express GFP specifically in hemocytes allows
It is becoming increasingly clear that transcript degradation
us to visualize the migrating hemocytes using the confocal
via ribonucleases is an important step in the control of develop-
microscope. This system is also used to overexpress Ena or inter-
mental processes. Pacman (pcm) is the Drosophila homologue of
fere with its function. Here we show that Ena localizes to the
yeast XRN1 and is the only known cytoplasmic 50 –30 exoribonuc-
leading edge of the lamellipodia and tips of filopodia. Further-
lease in eukaryotes. To determine the effects of this exoribonuc-
more, Ena positively regulates filopodial and lamellipodial pro-
lease in development we have constructed a number of
trusions, as previously illustrated in fibroblasts in vitro.
mutants of Pacman and characterised the resulting phenotypes.
However, whereas Ena negatively regulates velocity of fibroblasts
A recently generated allele, where 3053 base pairs are deleted
in vitro it actually increases the velocity of hemocytes in vivo.
within the pcm coding region, results in 100% lethality at the
This key difference highlights the importance of studying gene
pupal stage, while smaller deletions result in less severe and via-
function in vivo.
ble phenotypes. As the viable mutant phenotypes are often similar to those
doi:10.1016/j.mod.2009.06.858
seen for mutants in the JNK signalling pathway, and Pacman has been shown to genetically interact with the phosphatise puckered, we reasoned that Pacman might target mRNAs in the
20-P026
JNK pathway. This pathway is involved in cell movement, for
Phenotypic consequences of pacman exoribonuclease misex-
example, during the developmental process dorsal closure and
pression in Drosophila development
during wound healing in adults. Thorax, wing and pupal develop-
Dominic P. Grima, Steven Hebbes, Maria V. Zabolotskaya,
ment are also frequently affected in Pacman strains. Taqman quantitative RT-PCR is being used to determine the
Sarah F. Newbury
extent of the effect of Pacman on the JNK pathway, and identify BSMS, University of Sussex, Falmer, Brighton, United Kingdom
other pathways in which it plays a role. Preliminary results show
Control of RNA stability has important implications for development. Drosophila developmental processes require the input of 0
the exoribonuclease pacman, which is the only known 5 to 3
0
cytoplasmic exoribonuclease in eukaryotes. These processes include dorsal closure, thorax closure, spermatogenesis and
the mRNA levels of some JNK pathway members are affected in Pacman mutants. This suggests Pacman may specifically target particular transcripts, suggesting a mechanism by which it can affect developmental processes. doi:10.1016/j.mod.2009.06.860
wound healing. Mutants in pacman show phenotypes which suggest an involvement with signalling pathways such as the JNK pathway, crucial to such epithelial closure pathways. Immunohistochemical staining with PCM antibodies reveals expression of
20-P028
pacman in the amnioserosa at dorsal closure, bolstering this
A fatemap of placodes in Xenopus laevis
hypothesis.
Mareike Pieper1, Gerhard Schlosser1,2
Our experiments to date reveal the first evidence of the
1
Brain Research Institute, University of Bremen, Bremen, Germany
involvement of an exoribonuclease in such developmental con-
2
National University of Ireland, Galway, Ireland
texts. This study examines the effects of mis-expressing PCM protein via transgenic UAS-PCM constructs carrying either wild-type
Many of the evolutionary novelties of the vertebrate head,
or nuclease dead forms of the PCM cDNA. Similar constructs con-
including specialised sense organs and neurons of the cranial
taining UAS-pcm-RNAi constructs were utilised to examine the
ganglia, arise from ectodermal placodes. These placodes become
effects of lowering PCM protein expression levels.
visible as local thickenings during neurulation. Several types of
By altering expression levels using both ubiquitous and tissue
placodes can be distinguished based on their fate and position:
specific GAL4 promoters, we show that PCM protein levels are
adenohypophyseal, otic, olfactory, trigeminal and profundal, lens,
important for morphogenesis of the developing embryo as well
a series of epibranchial and a series of lateral line placodes.
as affecting pupariation. Over-expression of the nuclease dead
Expression patterns of several genes including genes of the Six
form seems to lead to more severe phenotypes than the wild type
and Eya families suggest that all placodes have a common origin
construct, in line with preliminary data suggesting a dominant
from a region of the non-neural ectoderm situated around the
negative effect of such a construct. RNAi knockdown of PCM
anterior neural plate, termed the panplacodal primordium. In
MECHANISMS OF DEVELOPMENT
1 2 6 ( 2 0 0 9 ) S 3 0 5 –S 3 1 3
S313
the present study small groups of cells were labelled with the
characterizing MADD-3 through other genetic and biochemical
fluorescent dyes Dil or DiO via microinjection to generate a fate-
approaches.
map of the non-neural ectoderm of Xenopus laevis embryos during neurulation. Our lineage analysis confirms that all placodes arise
doi:10.1016/j.mod.2009.06.863
from a common primordium and indicates the regions of origin of the different placodes. We further use time-lapse videomicroscopy to analyse the cell movements and behaviour of ectodermal cells of developing embryos. Our results suggest that the panplacodal primordium divides into different placodes without a large degree of cell sorting in Xenopus.
20-P031 Dpp signalling directs cell motility and invasiveness during epithelial morphogenesis Nikolay Ninov1, Cristina Manjon1, Sofia Cabral1, Alexander Weiss2, George Pyrowolakis2,3, Markus Affolter2,
doi:10.1016/j.mod.2009.06.861
Enrique Martin-Blanco1, Carla R. Prat1
20-P029 – Withdrawn
1
Instituto de Biologia Molecular de Barcelona, Barcelona, Spain
2
Biozentrum der Universitat Basel, Basel, Switzerland
3
University of Freiburg, Freiburg, Germany Tissue remodelling in development and disease involves the
20-P030 The cloning and characterization of MADD-3, a LAMMER kinase required for muscle arm extension in Caenorhabditis elegans
coordinated invasion of neighbouring territories and/or the replacement of entire cell populations. In particular, evolutionary conserved collective epithelial sheet movements are essential to
Serena D’Souza, Louis Barbier, Rachel Puckrin, Peter Roy
build up glands, vessels and epidermal structures during morphogenesis and regeneration, and also constitute basic elements
University of Toronto, Toronto, Ont., Canada
of multiple physiological (wound healing) and/or pathological The architecture of the neuromuscular system of nematodes
(metastasis) episodes. Besides an important body of knowledge
is unusual compared to other phyla in at least two ways. First,
on the mechanisms implementing cell migration in culture or
the terminal branches of motor axons are not arborized. Second,
in cell clusters in vivo, the extracellular signals that direct the col-
the body wall muscles extend plasma membrane projections,
lective behaviour of epithelial sheet movements, and the specific
called muscle arms, to the motor axons to form the neuromus-
cellular components and mechanisms regulated by these signals
cular junction. Multiple lines of evidence indicate that, in the
modulating cellular plasticity remain in most cases to be identi-
nematode C. elegans, muscle arm extension is guided to the
fied. To address these issues we performed an analysis of histo-
motor axons. To determine how muscle arms are guided, our
blasts (Drosophila abdominal epithelia founder cells) on their
lab performed a forward genetic screen for Muscle Arm Devel-
transition from a dormant state to active migration and expan-
opment Defective (Madd) mutants. Through this screen, we dis-
sion. We found that during histoblast expansion, Decapentaplegic
covered that an UNC-40 pathway directs muscle arm extension
(Dpp) secreted from surrounding larval cells leads to graded path-
to the motor axons (Alexander et al., 2009). We also discovered
way activation in cells at the periphery of the nests. Across nests,
that a previously uncharacterized TRIM superfamily protein,
Dpp activity confers differential cellular behaviour and motility
which we call MADD-2, functions upstream of UNC-40 to guide
by controlling the strength of cell–cell contacts, the organization
not only muscle arms, but several other cell and axon exten-
and activity of the cytoskeleton and the stickiness of cells to
sions to the ventral midline. To identify other novel genes that
the substrate. Histoblast spreading and invasiveness mimics
may play a role in guidance of migrations and extensions, we
advanced stages of carcinogenesis, where transforming growth
have continued our screen for Madd mutants. We have identi-
factor-b (TGFb) and bone morphogenetic proteins (BMPs) have
fied a previously uncharacterized member of the LAMMER
been shown to induce epithelial-mesenchymal transitions and
kinase family, which we call MADD-3, and found that it func-
enhance the motility and invasiveness of cancer cells, resulting
tions autonomously to regulate muscle arm extension. LAMMER
in the promotion of metastasis.
kinases are known to regulate the activity of SR-related splicing factors (Du et al., 1998). We are currently investigating whether MADD-3
functions
in
the
MADD-2/UNC-40
pathway
and
doi:10.1016/j.mod.2009.06.864
MECHANISMS OF DEVELOPMENT
1 2 6 (2 0 0 9) S3 0 5–S 31 3
20-P025
causes similar pupal lethal phenotypes, suggesting that upper
Cell migration in vivo; determining the function of Ena
and lower threshold levels of PCM are important.
Philippa Tucker, Iwan Evans, Will Wood
doi:10.1016/j.mod.2009.06.859
University of Bath, Avon, United Kingdom Cell migration has been studied extensively in vitro, however, fewer studies address this subject in vivo. Our aim is to deter-
20-P027
mine in vivo, the role of the actin regulatory protein, Ena. To
The 50 –30 exoribonuclease Pacman affects expression of JNK
enable this we are studying Drosophila hemocytes in the devel-
transcripts and has specific effects in Drosophila development
oping embryo. Hemocytes are the primary immune cells of Dro-
Christopher I. Jones, Dominic P. Grima, Sarah F. Newbury
sophila and during development they follow stereotyped pathways to distribute throughout the embryo. Using the
Brighton and Sussex Medical School, Brighton, United Kingdom
Gal4UAS system to express GFP specifically in hemocytes allows
It is becoming increasingly clear that transcript degradation
us to visualize the migrating hemocytes using the confocal
via ribonucleases is an important step in the control of develop-
microscope. This system is also used to overexpress Ena or inter-
mental processes. Pacman (pcm) is the Drosophila homologue of
fere with its function. Here we show that Ena localizes to the
yeast XRN1 and is the only known cytoplasmic 50 –30 exoribonuc-
leading edge of the lamellipodia and tips of filopodia. Further-
lease in eukaryotes. To determine the effects of this exoribonuc-
more, Ena positively regulates filopodial and lamellipodial pro-
lease in development we have constructed a number of
trusions, as previously illustrated in fibroblasts in vitro.
mutants of Pacman and characterised the resulting phenotypes.
However, whereas Ena negatively regulates velocity of fibroblasts
A recently generated allele, where 3053 base pairs are deleted
in vitro it actually increases the velocity of hemocytes in vivo.
within the pcm coding region, results in 100% lethality at the
This key difference highlights the importance of studying gene
pupal stage, while smaller deletions result in less severe and via-
function in vivo.
ble phenotypes. As the viable mutant phenotypes are often similar to those
doi:10.1016/j.mod.2009.06.858
seen for mutants in the JNK signalling pathway, and Pacman has been shown to genetically interact with the phosphatise puckered, we reasoned that Pacman might target mRNAs in the
20-P026
JNK pathway. This pathway is involved in cell movement, for
Phenotypic consequences of pacman exoribonuclease misex-
example, during the developmental process dorsal closure and
pression in Drosophila development
during wound healing in adults. Thorax, wing and pupal develop-
Dominic P. Grima, Steven Hebbes, Maria V. Zabolotskaya,
ment are also frequently affected in Pacman strains. Taqman quantitative RT-PCR is being used to determine the
Sarah F. Newbury
extent of the effect of Pacman on the JNK pathway, and identify BSMS, University of Sussex, Falmer, Brighton, United Kingdom
other pathways in which it plays a role. Preliminary results show
Control of RNA stability has important implications for development. Drosophila developmental processes require the input of 0
the exoribonuclease pacman, which is the only known 5 to 3
0
cytoplasmic exoribonuclease in eukaryotes. These processes include dorsal closure, thorax closure, spermatogenesis and
the mRNA levels of some JNK pathway members are affected in Pacman mutants. This suggests Pacman may specifically target particular transcripts, suggesting a mechanism by which it can affect developmental processes. doi:10.1016/j.mod.2009.06.860
wound healing. Mutants in pacman show phenotypes which suggest an involvement with signalling pathways such as the JNK pathway, crucial to such epithelial closure pathways. Immunohistochemical staining with PCM antibodies reveals expression of
20-P028
pacman in the amnioserosa at dorsal closure, bolstering this
A fatemap of placodes in Xenopus laevis
hypothesis.
Mareike Pieper1, Gerhard Schlosser1,2
Our experiments to date reveal the first evidence of the
1
Brain Research Institute, University of Bremen, Bremen, Germany
involvement of an exoribonuclease in such developmental con-
2
National University of Ireland, Galway, Ireland
texts. This study examines the effects of mis-expressing PCM protein via transgenic UAS-PCM constructs carrying either wild-type
Many of the evolutionary novelties of the vertebrate head,
or nuclease dead forms of the PCM cDNA. Similar constructs con-
including specialised sense organs and neurons of the cranial
taining UAS-pcm-RNAi constructs were utilised to examine the
ganglia, arise from ectodermal placodes. These placodes become
effects of lowering PCM protein expression levels.
visible as local thickenings during neurulation. Several types of
By altering expression levels using both ubiquitous and tissue
placodes can be distinguished based on their fate and position:
specific GAL4 promoters, we show that PCM protein levels are
adenohypophyseal, otic, olfactory, trigeminal and profundal, lens,
important for morphogenesis of the developing embryo as well
a series of epibranchial and a series of lateral line placodes.
as affecting pupariation. Over-expression of the nuclease dead
Expression patterns of several genes including genes of the Six
form seems to lead to more severe phenotypes than the wild type
and Eya families suggest that all placodes have a common origin
construct, in line with preliminary data suggesting a dominant
from a region of the non-neural ectoderm situated around the
negative effect of such a construct. RNAi knockdown of PCM
anterior neural plate, termed the panplacodal primordium. In
MECHANISMS OF DEVELOPMENT
1 2 6 ( 2 0 0 9 ) S 3 0 5 –S 3 1 3
S313
the present study small groups of cells were labelled with the
characterizing MADD-3 through other genetic and biochemical
fluorescent dyes Dil or DiO via microinjection to generate a fate-
approaches.
map of the non-neural ectoderm of Xenopus laevis embryos during neurulation. Our lineage analysis confirms that all placodes arise
doi:10.1016/j.mod.2009.06.863
from a common primordium and indicates the regions of origin of the different placodes. We further use time-lapse videomicroscopy to analyse the cell movements and behaviour of ectodermal cells of developing embryos. Our results suggest that the panplacodal primordium divides into different placodes without a large degree of cell sorting in Xenopus.
20-P031 Dpp signalling directs cell motility and invasiveness during epithelial morphogenesis Nikolay Ninov1, Cristina Manjon1, Sofia Cabral1, Alexander Weiss2, George Pyrowolakis2,3, Markus Affolter2,
doi:10.1016/j.mod.2009.06.861
Enrique Martin-Blanco1, Carla R. Prat1
20-P029 – Withdrawn
1
Instituto de Biologia Molecular de Barcelona, Barcelona, Spain
2
Biozentrum der Universitat Basel, Basel, Switzerland
3
University of Freiburg, Freiburg, Germany Tissue remodelling in development and disease involves the
20-P030 The cloning and characterization of MADD-3, a LAMMER kinase required for muscle arm extension in Caenorhabditis elegans
coordinated invasion of neighbouring territories and/or the replacement of entire cell populations. In particular, evolutionary conserved collective epithelial sheet movements are essential to
Serena D’Souza, Louis Barbier, Rachel Puckrin, Peter Roy
build up glands, vessels and epidermal structures during morphogenesis and regeneration, and also constitute basic elements
University of Toronto, Toronto, Ont., Canada
of multiple physiological (wound healing) and/or pathological The architecture of the neuromuscular system of nematodes
(metastasis) episodes. Besides an important body of knowledge
is unusual compared to other phyla in at least two ways. First,
on the mechanisms implementing cell migration in culture or
the terminal branches of motor axons are not arborized. Second,
in cell clusters in vivo, the extracellular signals that direct the col-
the body wall muscles extend plasma membrane projections,
lective behaviour of epithelial sheet movements, and the specific
called muscle arms, to the motor axons to form the neuromus-
cellular components and mechanisms regulated by these signals
cular junction. Multiple lines of evidence indicate that, in the
modulating cellular plasticity remain in most cases to be identi-
nematode C. elegans, muscle arm extension is guided to the
fied. To address these issues we performed an analysis of histo-
motor axons. To determine how muscle arms are guided, our
blasts (Drosophila abdominal epithelia founder cells) on their
lab performed a forward genetic screen for Muscle Arm Devel-
transition from a dormant state to active migration and expan-
opment Defective (Madd) mutants. Through this screen, we dis-
sion. We found that during histoblast expansion, Decapentaplegic
covered that an UNC-40 pathway directs muscle arm extension
(Dpp) secreted from surrounding larval cells leads to graded path-
to the motor axons (Alexander et al., 2009). We also discovered
way activation in cells at the periphery of the nests. Across nests,
that a previously uncharacterized TRIM superfamily protein,
Dpp activity confers differential cellular behaviour and motility
which we call MADD-2, functions upstream of UNC-40 to guide
by controlling the strength of cell–cell contacts, the organization
not only muscle arms, but several other cell and axon exten-
and activity of the cytoskeleton and the stickiness of cells to
sions to the ventral midline. To identify other novel genes that
the substrate. Histoblast spreading and invasiveness mimics
may play a role in guidance of migrations and extensions, we
advanced stages of carcinogenesis, where transforming growth
have continued our screen for Madd mutants. We have identi-
factor-b (TGFb) and bone morphogenetic proteins (BMPs) have
fied a previously uncharacterized member of the LAMMER
been shown to induce epithelial-mesenchymal transitions and
kinase family, which we call MADD-3, and found that it func-
enhance the motility and invasiveness of cancer cells, resulting
tions autonomously to regulate muscle arm extension. LAMMER
in the promotion of metastasis.
kinases are known to regulate the activity of SR-related splicing factors (Du et al., 1998). We are currently investigating whether MADD-3
functions
in
the
MADD-2/UNC-40
pathway
and
doi:10.1016/j.mod.2009.06.864