Spelling suggestions: "subject:"neuronal polarity""
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Planar Cell Polarity Genes prkl-1 and dsh-1 Polarize C. Elegans Motorneurons during OrganogenesisSánchez-Alvarez, Leticia 16 November 2012 (has links)
The correct polarity of a neuron underlies its ability to integrate precise circuitries in
the nervous system. The goal of my thesis was to investigate the pathways that establish and
maintain neuron polarity/orientation in vivo. To accomplish this, I used bipolar VC4/5 motor
neurons, which innervate the C. elegans egg-laying musculature, as a model system. Vulval
proximal VC4/5 neurons extend axons in the left-right (LR) orientation, around the vulva;
whereas vulval distal VC1-3,6 neurons extend axons along the anterior-posterior (AP) axis.
A previous study showed that vang-1, a core planar cell polarity (PCP) gene, suppresses AP
axon growth in VC4/5 neurons. In order to identify new components of this pathway we
performed genetic screens for mutants with abnormal VC4/5 polarity/morphology. We
isolated and mapped alleles of farnesyl transferase b (fntb-1) and of core PCP genes, prickle-
1 (prkl-1) and dishevelled-1 (dsh-1); all of which display tripolar VC4/5 neurons, similar to
vang-1 lof. In prkl-1 and dsh-1 mutants, primary LR and ectopic AP VC4/5 axons are born
simultaneously, suggesting an early role in establishing polarity. In addition, prkl-1 and dsh-1
act persistently to maintain neuron morphology/orientation. Genetic analysis of double
mutants suggests that prkl-1 interacts with vang-1 in a common PCP pathway to prevent AP
axon growth, while dsh-1 also acts in a parallel pathway. Furthermore, prkl-1 functions cell
autonomously in neurons, whereas dsh-1 acts both cell autonomously and cell nonautonomously
in epithelial cells. Notably, prkl-1 overexpression results in unipolar VC4/5
neurons, in a dose-dependent manner. In contrast, dsh-1 overexpression in VC4/5 neurons
results in a lof phenotype, similar to vang-1 lof and overexpression phenotype. Remarkably,
prkl-1 overexpression restores normal VC4/5 polarity in dsh-1 and vang-1 mutants, which is
suggestive of a downstream role for prkl-1. Both PRKL-1 and DSH-1 are expressed in
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uniformly distributed puncta at the plasma membrane of VC4/5, similar to VANG-1;
suggesting that their asymmetric distribution is not critical for neuron polarity. Furthermore,
we found that the vulva epithelium induces prkl-1 expression in VC4/5; indicating a
functional relationship between the egg-laying organ and neuron morphology. Moreover, a
structure-function analysis of PRKL-1 revealed that the conserved PET domain and the Cterminal
region are crucial to prevent AP axon growth, whereas the three LIM domains are
dispensable for this role. In addition, we showed that dsh-1 also regulates the morphology of
AP-oriented PDE neurons. dsh-1 promotes the formation of PDE posterior axons, contrary to
its function in VC5 neurons; which indicates a context-dependent role for dsh-1 in neuronal
polarity. Altogether, this thesis implicates the PCP signalling pathway in a previously
unknown role, in establishing and maintaining neuronal polarity, by controlling AP axon
growth in response to organ-derived polarizing cues.
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Planar Cell Polarity Genes prkl-1 and dsh-1 Polarize C. Elegans Motorneurons during OrganogenesisSánchez-Alvarez, Leticia 16 November 2012 (has links)
The correct polarity of a neuron underlies its ability to integrate precise circuitries in
the nervous system. The goal of my thesis was to investigate the pathways that establish and
maintain neuron polarity/orientation in vivo. To accomplish this, I used bipolar VC4/5 motor
neurons, which innervate the C. elegans egg-laying musculature, as a model system. Vulval
proximal VC4/5 neurons extend axons in the left-right (LR) orientation, around the vulva;
whereas vulval distal VC1-3,6 neurons extend axons along the anterior-posterior (AP) axis.
A previous study showed that vang-1, a core planar cell polarity (PCP) gene, suppresses AP
axon growth in VC4/5 neurons. In order to identify new components of this pathway we
performed genetic screens for mutants with abnormal VC4/5 polarity/morphology. We
isolated and mapped alleles of farnesyl transferase b (fntb-1) and of core PCP genes, prickle-
1 (prkl-1) and dishevelled-1 (dsh-1); all of which display tripolar VC4/5 neurons, similar to
vang-1 lof. In prkl-1 and dsh-1 mutants, primary LR and ectopic AP VC4/5 axons are born
simultaneously, suggesting an early role in establishing polarity. In addition, prkl-1 and dsh-1
act persistently to maintain neuron morphology/orientation. Genetic analysis of double
mutants suggests that prkl-1 interacts with vang-1 in a common PCP pathway to prevent AP
axon growth, while dsh-1 also acts in a parallel pathway. Furthermore, prkl-1 functions cell
autonomously in neurons, whereas dsh-1 acts both cell autonomously and cell nonautonomously
in epithelial cells. Notably, prkl-1 overexpression results in unipolar VC4/5
neurons, in a dose-dependent manner. In contrast, dsh-1 overexpression in VC4/5 neurons
results in a lof phenotype, similar to vang-1 lof and overexpression phenotype. Remarkably,
prkl-1 overexpression restores normal VC4/5 polarity in dsh-1 and vang-1 mutants, which is
suggestive of a downstream role for prkl-1. Both PRKL-1 and DSH-1 are expressed in
iii
uniformly distributed puncta at the plasma membrane of VC4/5, similar to VANG-1;
suggesting that their asymmetric distribution is not critical for neuron polarity. Furthermore,
we found that the vulva epithelium induces prkl-1 expression in VC4/5; indicating a
functional relationship between the egg-laying organ and neuron morphology. Moreover, a
structure-function analysis of PRKL-1 revealed that the conserved PET domain and the Cterminal
region are crucial to prevent AP axon growth, whereas the three LIM domains are
dispensable for this role. In addition, we showed that dsh-1 also regulates the morphology of
AP-oriented PDE neurons. dsh-1 promotes the formation of PDE posterior axons, contrary to
its function in VC5 neurons; which indicates a context-dependent role for dsh-1 in neuronal
polarity. Altogether, this thesis implicates the PCP signalling pathway in a previously
unknown role, in establishing and maintaining neuronal polarity, by controlling AP axon
growth in response to organ-derived polarizing cues.
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Planar Cell Polarity Genes prkl-1 and dsh-1 Polarize C. Elegans Motorneurons during OrganogenesisSánchez-Alvarez, Leticia January 2012 (has links)
The correct polarity of a neuron underlies its ability to integrate precise circuitries in
the nervous system. The goal of my thesis was to investigate the pathways that establish and
maintain neuron polarity/orientation in vivo. To accomplish this, I used bipolar VC4/5 motor
neurons, which innervate the C. elegans egg-laying musculature, as a model system. Vulval
proximal VC4/5 neurons extend axons in the left-right (LR) orientation, around the vulva;
whereas vulval distal VC1-3,6 neurons extend axons along the anterior-posterior (AP) axis.
A previous study showed that vang-1, a core planar cell polarity (PCP) gene, suppresses AP
axon growth in VC4/5 neurons. In order to identify new components of this pathway we
performed genetic screens for mutants with abnormal VC4/5 polarity/morphology. We
isolated and mapped alleles of farnesyl transferase b (fntb-1) and of core PCP genes, prickle-
1 (prkl-1) and dishevelled-1 (dsh-1); all of which display tripolar VC4/5 neurons, similar to
vang-1 lof. In prkl-1 and dsh-1 mutants, primary LR and ectopic AP VC4/5 axons are born
simultaneously, suggesting an early role in establishing polarity. In addition, prkl-1 and dsh-1
act persistently to maintain neuron morphology/orientation. Genetic analysis of double
mutants suggests that prkl-1 interacts with vang-1 in a common PCP pathway to prevent AP
axon growth, while dsh-1 also acts in a parallel pathway. Furthermore, prkl-1 functions cell
autonomously in neurons, whereas dsh-1 acts both cell autonomously and cell nonautonomously
in epithelial cells. Notably, prkl-1 overexpression results in unipolar VC4/5
neurons, in a dose-dependent manner. In contrast, dsh-1 overexpression in VC4/5 neurons
results in a lof phenotype, similar to vang-1 lof and overexpression phenotype. Remarkably,
prkl-1 overexpression restores normal VC4/5 polarity in dsh-1 and vang-1 mutants, which is
suggestive of a downstream role for prkl-1. Both PRKL-1 and DSH-1 are expressed in
iii
uniformly distributed puncta at the plasma membrane of VC4/5, similar to VANG-1;
suggesting that their asymmetric distribution is not critical for neuron polarity. Furthermore,
we found that the vulva epithelium induces prkl-1 expression in VC4/5; indicating a
functional relationship between the egg-laying organ and neuron morphology. Moreover, a
structure-function analysis of PRKL-1 revealed that the conserved PET domain and the Cterminal
region are crucial to prevent AP axon growth, whereas the three LIM domains are
dispensable for this role. In addition, we showed that dsh-1 also regulates the morphology of
AP-oriented PDE neurons. dsh-1 promotes the formation of PDE posterior axons, contrary to
its function in VC5 neurons; which indicates a context-dependent role for dsh-1 in neuronal
polarity. Altogether, this thesis implicates the PCP signalling pathway in a previously
unknown role, in establishing and maintaining neuronal polarity, by controlling AP axon
growth in response to organ-derived polarizing cues.
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