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5. Multiple redundant Wnt signaling components function in two processes during C. elegans vulval development

Author

Gleason, Julie E., Szyleyko, Elizabeth A., and Eisenmann, David M.

Subjects
Caenorhabditis elegans, Biological sciences
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.ydbio.2006.06.050 Byline: Julie E. Gleason, Elizabeth A. Szyleyko, David M. Eisenmann Keywords: C. elegans; Vulva; Wnt; Development; Redundancy; Frizzled; GSK-3; CK1; Genetics; Differentiation Abstract: In Caenorhabditis elegans, vulval precursor cell (VPC) fate is specified by the action of RTK/Ras, Notch and Wnt signaling pathways. While the identity of signals for the Ras and Notch pathways is known, the source and identity of the Wnt ligand acting on the VPCs are unknown. Single mutations in any of the five Wnt genes (lin-44, cwn-1, cwn-2, egl-20 and mom-2) do not cause strong defects in VPC fate specification, suggesting that functionally redundant Wnts are required. Surprisingly, we found that all five Wnts influence VPC fate. The strongest defects we observed were in the lin-44; cwn-1; egl-20 triple mutant. Anterior VPCs were more strongly affected by loss of Wnt function than posterior VPCs, and expression from Wnta*GFP transcriptional reporters showed that the Wnts most strongly affecting VPC fate were expressed predominantly in the posterior, suggesting that some of the redundant Wnt ligands act over a distance to affect the VPCs. In addition to ligand redundancy, we found that at least three Wnt receptors, lin-17, mom-5 and mig-1, function in the VPCs. We also examined ligand and receptor function in another Wnt-mediated vulval process, the orientation of the P7.p lineage. Here, too, we found that four of five Wnt receptors can influence P7.p orientation, suggesting that a surprising amount of functional redundancy exists in Wnt signaling during C. elegans vulval induction. Author Affiliation: Department of Biological Sciences, University of Maryland Baltimore County, 1000 Hilltop Circle, Baltimore, MD 21250, USA Article History: Received 10 March 2006; Revised 26 June 2006; Accepted 30 June 2006

Published
2006

6. Identification of cis-regulatory elements from the C. elegans Hox gene lin-39 required for embryonic expression and for regulation by the transcription factors LIN-1, LIN-31 and LIN-39

Author

Wagmaister, Javier A., Miley, Ginger R., Morris, Corey A., Gleason, Julie E., Miller, Leilani M., Kornfeld, Kerry, and Eisenmann, David M.

Subjects
Gene expression -- Research, Developmental biology -- Research, Biochemistry -- Research, Biological sciences
Abstract

Gene expression in mammal embryo development and biochemical process in this is examined.

Published
2006

7. The Caenorhabditis elegans pvl-5 gene protects hypodermal cells from ced-3-dependent, ced-4-independent cell death

Author

Joshi, Pradeep and Eisenmann, David M.

Subjects
Caenorhabditis elegans -- Research, Cell death -- Research, Genetic research, Biochemistry, Biological sciences
Abstract

Programmed cell death (PCD) is regulated by multiple evolutionarily conserved mechanisms to ensure the survival of the cell. Here we describe pvl-5, a gene that likely regulates PCD in Caenorhabditis elegans. In wild-type hermaphrodites at the L2 stage there are 11 Pn.p hypodermal cells in the ventral midline arrayed along the anterior-posterior axis and 6 of these cells become the vulval precursor cells. In pvl-5(ga87) animals there are fewer Pn.p cells (average of 7.0) present at this time. Lineage analysis reveals that the missing Pn.p cells die around the time of the L1 molt in a manner that often resembles the programmed cell deaths that occur normally in C. elegans development. This Pn.p cell death is suppressed by mutations in the caspase gene ced-3 and in the bcl-2 homolog ced-9, suggesting that the Pn.p cells are dying by PCD in pvl-5 mutants. Surprisingly, the Pn.p cell death is not suppressed by loss of ced-4 function. ced-4 (Apaf-1) is required for all previously known apoptotic cell deaths in C. elegans. This suggests that loss of pvl-5 function leads to the activation of a ced-3-dependent, ced-4-independent form of PCD and that pvl-5 may normally function to protect cells from inappropriate activation of the apoptotic pathway.

Published
2004

9. Activation of Wnt signaling bypasses the requirement for RTK/Ras signaling during C. elegans vulval induction

Author

Gleason, Julie E., Korswagen, Hendrik C., and Eisenmann, David M.

Subjects
Genetic research -- Analysis, Protein tyrosine kinase -- Genetic aspects, Cells -- Genetic aspects, Caenorhabditis elegans -- Genetic aspects, Gene expression -- Physiological aspects, Biological sciences
Abstract

Research has been conducted on the role of Wnt signaling during vulval development in Caenorhabditis elegans. The overactivation consequences of the Wnt pathway have been investigated and the results suggest that this pathway may specify the induced vulval cell fates during C. elegans vulval induction.

Published
2002

11. Mechanism of activation of the Caenorhabditis elegans ras homologue let-60 by a novel, temperature-sensitive, gain-of-function mutation

Author

Eisenmann, David M. and Kim, Stuart K.

Subjects
Caenorhabditis elegans -- Genetic aspects, G proteins -- Physiological aspects, Ras genes -- Physiological aspects, Gene mutations -- Analysis, Vulva -- Genetic aspects, Biological sciences
Abstract

The Caenorhabditis elegans let-60 gene encodes a Ras protein that mediates induction of the hermaphrodite vulva. To better understand how mutations constitutively activate Ras and cause unregulated cell division, we have characterized ga89, a temperature-sensitive, gain-of-function mutation in let-60 ras. At 25 [degrees], ga89 increases let-60 activity resulting in a multivulva phenotype. At 15 [degrees], ga89 decreases let-60 activity resulting in a vulvaless phenotype in let-60(ga89)/Df animals. The ga89 mutation causes a leucine (L) to phenylalanine (F) substitution at amino acid 19, a residue conserved in all Ras proteins. We introduced the L19F change into human H-Ras protein and found that the in vitro GTPase activity of H-Ras became temperature-dependent. Genetic experiments suggest that LET-60(L19F) interacts with GAP and GNEF, since mutations that decrease GAP and GNEF activity affect the multivulva phenotype of let-60(ga89) animals. These results suggest that the L19F mutation primarily affects the intrinsic rate of GTP hydrolysis by Ras, and that this effect may be sufficient to account for the activated-Ras phenotype caused by let-60(ga89). Our results suggest that a mutation in a human ras gene analogous to ga89 might contribute to oncogenic transformation.

Published
1997

12. The Saccharomyces cerevisiae SPT8 gene encodes a very acidic protein that is functionally related to SPT3 and TATA-binding protein

Author

Eisenmann, David M., Chapon, Christine, Roberts, Shannon M., Dollard, Catherine, and Winston, Fred

Subjects
Saccharomyces -- Genetic aspects, Carrier proteins -- Research, Gene expression -- Analysis, Biological sciences
Abstract

SPT3, SPT8 and TBP proteins in Saccharomyces cerevisiae directly or indirectly participate in a common step during transcriptional initiation. SPT8 is involved in the proper interaction of TBP and SPT3 by acting as a loosely linked component of or a complex formed by three proteins. SPT3 and SPT8 are required at the subset of promoters that use TBP for yeast growth.

Published
1994

14. The Divergent Caenorhabditis elegans [Beta]-Catenin Proteins BAR-1, WRM-1 and HMP-2 Make Distinct Protein Interactions but Retain Functional Redundancy in Vivo

Author

Natarajan, Lakshmi, Witwer, Nina E., and Eisenmann, David M.

Subjects
Cell adhesion -- Genetic aspects, Cellular signal transduction -- Genetic aspects, Caenorhabditis elegans -- Genetic aspects, Armadillos -- Genetic aspects, Genetic research -- Analysis, Biological sciences
Abstract

[Beta]-Catenins function both in cell adhesion as part of the cadherin/catenin complex and in Wnt signal transduction as transcription factors. Vertebrates express two related proteins, [Beta]-catenin and plakoglobin, while Drosophila has a single family member, Armadillo. Caenorhabditis elegans expresses three [Beta]-catenin-related proteins, BAR-1, HMP-2, and WRM-1, which are quite diverged in sequence from each other and other [Beta]-catenins. While BAR-1 and WRM-1 are known to act in Wnt-mediated processes, and HMP-2 acts in a complex with cadherin/ [Alpha]-catenin homologs, it is unclear whether all three proteins retain the other functions of [Beta]-catenin. Here we show that BAR-1, like vertebrate [Beta]-catenin, has redundant transcription activation domains in its amino- and carboxyl-terminal regions but that HMP-2 and WRM-1 also possess the ability to activate transcription. We show via yeast two-hybrid analysis that these three proteins display distinct patterns of protein interactions. Surprisingly, we find that both WRM-1 and HMP-2 can substitute for BAR-1 in C. elegans when expressed from the bar-1 promoter. Therefore, although their mutant phenotypes and protein interaction patterns strongly suggest that the functions of [Beta]-catenin in other species have been segregated among three diverged proteins in C. elegans, these proteins still retain sufficient similarity to display functional redundancy in vivo.

Published
2001

15. Protruding Vulva Mutants Identify Novel Loci and Wnt Signaling Factors That Function During Caenorhabditis elegans Vulva Development

Author

Eisenmann, David M. and Kim, Stuart K.

Subjects
Caenorhabditis elegans -- Genetic aspects, Sex differentiation -- Genetic aspects, Vulva -- Genetic aspects, Biological sciences
Abstract

The Caenorhabditis elegans vulva develops from the progeny of three vulval precursor cells (VPCs) induced to divide and differentiate by a signal from the somatic gonad. Evolutionarily conserved Ras and Notch extracellular signaling pathways are known to function during this process. To identify novel loci acting in vulval development, we carried out a genetic screen for mutants having a protruding-vulva (Pvl) mutant phenotype. Here we report the initial genetic characterization of several novel loci: bar-1, pvl-4, pvl-5, and pvl-6. In addition, on the basis of their Pvl phenotypes, we show that the previously identified genes lin-26, mom-3/mig-14, egl-18, and sem-4 also function during vulval development. Our characterization indicates that (1) pvl-4 and pvl-5 are required for generation/survival of the VPCs; (2) bar-1, mom-3/mig-14, egl-18, and sem-4 play a role in VPC fate specification; (3) lin-26 is required for proper VPC fate execution; and (4) pvl-6 acts during vulval morphogenesis. In addition, two of these genes, bar-1 and mom-3/mig-14, are known to function in processes regulated by Wnt signaling, suggesting that a Wnt signaling pathway is acting during vulval development.

Published
2000

27. Multiple transcription factors directly regulate Hox gene lin-39 expression in ventral hypodermal cells of the C. elegans embryo and larva, including the hypodermal fate regulators LIN-26 and ELT-6.

Author

Wan-Ju Liu, Reece-Hoyes, John S., Walhout, Albertha J. M., and Eisenmann, David M.

Subjects
CAENORHABDITIS elegans, HOMEOBOX genes, GENE expression, GATA proteins, CELL determination
Abstract

Background Hox genes encode master regulators of regional fate specification during early metazoan development. Much is known about the initiation and regulation of Hox gene expression in Drosophila and vertebrates, but less is known in the non-arthropod invertebrate model system, C. elegans. The C. elegans Hox gene lin-39 is required for correct fate specification in the midbody region, including the Vulval Precursor Cells (VPCs). To better understand lin-39 regulation and function, we aimed to identify transcription factors necessary for lin-39 expression in the VPCs, and in particular sought factors that initiate lin-39 expression in the embryo. Results We used the yeast one-hybrid (Y1H) method to screen for factors that bound to 13 fragments from the lin-39 region: twelve fragments contained sequences conserved between C. elegans and two other nematode species, while one fragment was known to drive reporter gene expression in the early embryo in cells that generate the VPCs. Sixteen transcription factors that bind to eight lin-39 genomic fragments were identified in yeast, and we characterized several factors by verifying their physical interactions in vitro, and showing that reduction of their function leads to alterations in lin-39 levels and lin-39::GFP reporter expression in vivo. Three factors, the orphan nuclear hormone receptor NHR-43, the hypodermal fate regulator LIN-26, and the GATA factor ELT-6 positively regulate lin-39 expression in the embryonic precursors to the VPCs. In particular, ELT-6 interacts with an enhancer that drives GFP expression in the early embryo, and the ELT-6 site we identified is necessary for proper embryonic expression. These three factors, along with the factors ZTF-17, BED-3 and TBX-9, also positively regulate lin-39 expression in the larval VPCs. Conclusions These results significantly expand the number of factors known to directly bind and regulate lin-39 expression, identify the first factors required for lin-39 expression in the embryo, and hint at a positive feedback mechanism involving GATA factors that maintains lin-39 expression in the vulval lineage. This work indicates that, as in other organisms, the regulation of Hox gene expression in C. elegans is complicated, redundant and robust. [ABSTRACT FROM AUTHOR]

Published
2014
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30. C. elegans GATA factors EGL-18 and ELT-6 function downstream of Wnt signaling to maintain the progenitor fate during larval asymmetric divisions of the seam cells.

Author

Gorrepati, Lakshmi, Thompson, Kenneth W., and Eisenmann, David M.

Subjects
CAENORHABDITIS elegans, GATA proteins, WNT proteins, PROGENITOR cells, NEMATODE larvae, CELL division, STEM cells
Abstract

The C. elegans seam cells are lateral epithelial cells arrayed in a single line from anterior to posterior that divide in an asymmetric, stem cell-like manner during larval development. These asymmetric divisions are regulated by Wnt signaling; in most divisions, the posterior daughter in which the Wnt pathway is activated maintains the progenitor seam fate, while the anterior daughter in which the Wnt pathway is not activated adopts a differentiated hypodermal fate. Using mRNA tagging and microarray analysis, we identified the functionally redundant GATA factor genes egl-18 and elt-6 as Wnt pathway targets in the larval seam cells. EGL-18 and ELT-6 have previously been shown to be required for initial seam cell specification in the embryo. We show that in larval seam cell asymmetric divisions, EGL-18 is expressed strongly in the posterior seam-fated daughter. egl-18 and elt-6 are necessary for larval seam cell specification, and for hypodermal to seam cell fate transformations induced by ectopic Wnt pathway overactivation. The TCF homolog POP-1 binds a site in the egl-18 promoter in vitro, and this site is necessary for robust seam cell expression in vivo. Finally, larval overexpression of EGL-18 is sufficient to drive expression of a seam marker in other hypodermal cells in wild-type animals, and in anterior hypodermal-fated daughters in a Wnt pathway-sensitized background. These data suggest that two GATA factors that are required for seam cell specification in the embryo independently of Wnt signaling are reused downstream of Wnt signaling to maintain the progenitor fate during stem cell-like divisions in larval development. [ABSTRACT FROM AUTHOR]

Published
2013
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31. Cell fates and fusion in the C. elegans vulval primordium are regulated by the EGL-18 and ELT-6 GATA factors — apparent direct targets of the LIN-39 Hox protein

Author

Koh, Kyunghee, Peyrot, Sara M., Wood, Cricket G., Wagmaister, Javier A., Maduro, Morris F., Eisenmann, David M., and Rothman, Joel H.

Abstract

Development of the vulva in C. elegans is mediated by the combinatorial action of several convergent regulatory inputs, three of which,the Ras, Wnt and Rb-related pathways, act by regulating expression of thelin-39 Hox gene. LIN-39 specifies cell fates and regulates cell fusion in the mid-body region, leading to formation of the vulva. In the lateral seam epidermis, differentiation and cell fusion have been shown to be regulated by two GATA-type transcription factors, ELT-5 and -6. We report that ELT-5 is encoded by the egl-18 gene, which was previously shown to promote formation of a functional vulva. Furthermore, we find that EGL-18(ELT-5), and its paralogue ELT-6, are redundantly required to regulate cell fates and fusion in the vulval primordium and are essential to form a vulva. Elimination of egl-18 and elt-6 activity results in arrest by the first larval stage; however, in animals rescued for this larval lethality by expression of ELT-6 in non-vulval cells, the post-embryonic cells(P3.p-P8.p) that normally become vulval precursor cells often fuse with the surrounding epidermal syncytium or undergo fewer than normal cell divisions,reminiscent of lin-39 mutants. Moreover, egl-18/elt-6reporter gene expression in the developing vulva is attenuated inlin-39(rf) mutants, and overexpression of egl-18 can partially rescue the vulval defects caused by reduced lin-39activity. LIN-39/CEH-20 heterodimers bind two consensus HOX/PBC sites in a vulval enhancer region of egl-18/elt-6, one of which is essential for vulval expression of egl-18/elt-6 reporter constructs. These findings demonstrate that the EGL-18 and ELT-6 GATA factors are essential, genetically redundant regulators of cell fates and fusion in the developing vulva and are apparent direct transcriptional targets of the LIN-39 Hox protein.

Published
2002
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32. The β-catenin homolog BAR-1 and LET-60 Ras coordinately regulate the Hox gene lin-39 during Caenorhabditis elegans vulval development

Author

Eisenmann, David M., Maloof, Julin N., Simske, Jeffrey S., Kenyon, Cynthia, and Kim, Stuart K.

Abstract

In C. elegans, the epithelial Pn.p cells adopt either a vulval precursor cell fate or fuse with the surrounding hypodermis (the F fate). Our results suggest that a Wnt signal transduced through a pathway involving the β-catenin homolog BAR-1 controls whether P3.p through P8.p adopt the vulval precursor cell fate. In bar-1 mutants, P3.p through P8.p can adopt F fates instead of vulval precursor cell fates. The Wnt/bar-1 signaling pathway acts by regulating the expression of the Hox gene lin-39, since bar-1 is required for LIN-39 expression and forced lin-39 expression rescues the bar-1 mutant phenotype. LIN-39 activity is also regulated by the anchor cell signal/let-23 receptor tyrosine kinase/let-60 Ras signaling pathway. Our genetic and molecular experiments show that the vulval precursor cells can integrate the input from the BAR-1 and LET-60 Ras signaling pathways by coordinately regulating activity of the common target LIN-39 Hox.

Published
1998
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35. The C. elegans embryonic fate specification factor EGL-18 (GATA) is reutilized downstream of Wnt signaling to maintain a population of larval progenitor cells.

Author

Gorrepati, Lakshmi and Eisenmann, David M

Subjects
*WNT genes, *PROGENITOR cells, *CELL populations, *EMBRYONIC stem cells, *CAENORHABDITIS elegans
Abstract

In metazoans, stem cells in developing and adult tissues can divide asymmetrically to give rise to a daughter that differentiates and a daughter that retains the progenitor fate. Although the short-lived nematodeC. elegansdoes not possess adult somatic stem cells, the lateral hypodermal seam cells behave in a similar manner: they divide once per larval stage to generate an anterior daughter that adopts a non-dividing differentiated fate and a posterior daughter that retains the seam fate and the ability to divide further. Wnt signaling pathway is known to regulate the asymmetry of these divisions and maintain the progenitor cell fate in one daughter, but how activation of the Wnt pathway accomplished this was unknown. We describe here our recent work that identified the GATA transcription factor EGL-18 as a downstream target of Wnt signaling necessary for maintenance of a progenitor population of larval seam cells. EGL-18 was previously shown to act in the initial specification of the seam cells in the embryo. Thus the acquisition of a Wnt-responsivecis-regulatory module allows an embryonic fate specification factor to be reutilized later in life downstream of a different regulator (Wnt signaling) to maintain a progenitor cell population. These results support the use of seam cell development inC. elegansas a simple model system for studying stem and progenitor cell biology. [ABSTRACT FROM PUBLISHER]

Published
2015
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36. Identification of Wnt Pathway Target Genes Regulating the Division and Differentiation of Larval Seam Cells and Vulval Precursor Cells in Caenorhabditis elegans.

Author

Gorrepati, Lakshmi, Krause, Michael W., Weiping Chen, Brodigan, Thomas M., Correa-Mendez, Margarita, and Eisenmann, David M.

Subjects
*WNT genes, *CAENORHABDITIS elegans genetics, *CATENINS
Abstract

The evolutionarily conserved Wnt/β-catenin signaling pathway plays a fundamental role during metazoan development, regulating numerous processes including cell fate specification, cell migration, and stem cell renewal. Wnt ligand binding leads to stabilization of the transcriptional effector β-catenin and upregulation of target gene expression to mediate a cellular response. During larval development of the nematode Caenorhabditis elegans, Wnt/β-catenin pathways act in fate specification of two hypodermal cell types, the ventral vulval precursor cells (VPCs) and the lateral seam cells. Because little is known about targets of the Wnt signaling pathways acting during larval VPC and seam cell differentiation, we sought to identify genes regulated by Wnt signaling in these two hypodermal cell types. We conditionally activated Wnt signaling in larval animals and performed cell type-specific "mRNA tagging" to enrich for VPC and seam cell-specific mRNAs, and then used microarray analysis to examine gene expression compared to control animals. Two hundred thirty-nine genes activated in response to Wnt signaling were identified, and we characterized 50 genes further. The majority of these genes are expressed in seam and/or vulval lineages during normal development, and reduction of function for nine genes caused defects in the proper division, fate specification, fate execution, or differentiation of seam cells and vulval cells. Therefore, the combination of these techniques was successful at identifying potential cell type-specific Wnt pathway target genes from a small number of cells and at increasing our knowledge of the specification and behavior of these C. elegans larval hypodermal cells. [ABSTRACT FROM AUTHOR]

Published
2015
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37. Regulation of C. elegans L4 cuticle collagen genes by the heterochronic protein LIN-29.

Author

Abete-Luzi P and Eisenmann DM

Subjects
Animals, Animals, Genetically Modified, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Collagen metabolism, DNA, Helminth metabolism, GATA Transcription Factors genetics, Gene Expression Regulation, Developmental genetics, Promoter Regions, Genetic genetics, Caenorhabditis elegans Proteins genetics, Caenorhabditis elegans Proteins metabolism, Collagen genetics, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Transcription Factors genetics, Transcription Factors metabolism
Abstract

The cuticle, the outer covering of the nematode C. elegans, is synthesized five times during the worm's life by the underlying hypodermis. Cuticle collagens, the major cuticle component, are encoded by a large family of col genes and, interestingly, many of these genes express predominantly at a single developmental stage. This temporal preference motivated us to investigate the mechanisms underlying col gene expression and here we focus on a subset of col genes expressed in the L4 stage. We identified minimal promoter regions of <300 bp for col-38, col-49, and col-63. In these regions, we predicted cis-regulatory sequences and evaluated their function in vivo via mutagenesis of a col-38p::yfp reporter. We used RNAi to study the requirement for candidate transcription regulators ELT-1 and ELT-3, LIN-29, and the LIN-29 co-factor MAB-10, and found LIN-29 to be necessary for the expression of four L4-specific genes (col-38, col-49, col-63, and col-138). Temporal misexpression of LIN-29 was also sufficient to activate these genes at a different developmental stage. The LIN-29 DNA-binding domain bound the col-38, col-49, and col-63 minimal promoters in vitro. For col-38 we showed that the LIN-29 sites necessary for reporter expression in vivo are also bound in vitro: this is the first identification of specific binding sites for LIN-29 necessary for in vivo target gene expression., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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38. Use of an activated beta-catenin to identify Wnt pathway target genes in caenorhabditis elegans, including a subset of collagen genes expressed in late larval development.

Author

Jackson BM, Abete-Luzi P, Krause MW, and Eisenmann DM

Subjects
Animals, Caenorhabditis elegans genetics, Caenorhabditis elegans growth & development, Caenorhabditis elegans Proteins antagonists & inhibitors, Caenorhabditis elegans Proteins metabolism, Collagen metabolism, Cytoskeletal Proteins antagonists & inhibitors, Cytoskeletal Proteins genetics, Cytoskeletal Proteins metabolism, Larva metabolism, Phenotype, RNA isolation & purification, RNA metabolism, RNA Interference, RNA, Small Interfering metabolism, Wnt Signaling Pathway, beta Catenin metabolism, Caenorhabditis elegans metabolism, Caenorhabditis elegans Proteins genetics, Collagen genetics, beta Catenin genetics
Abstract

The Wnt signaling pathway plays a fundamental role during metazoan development, where it regulates diverse processes, including cell fate specification, cell migration, and stem cell renewal. Activation of the beta-catenin-dependent/canonical Wnt pathway up-regulates expression of Wnt target genes to mediate a cellular response. In the nematode Caenorhabditis elegans, a canonical Wnt signaling pathway regulates several processes during larval development; however, few target genes of this pathway have been identified. To address this deficit, we used a novel approach of conditionally activated Wnt signaling during a defined stage of larval life by overexpressing an activated beta-catenin protein, then used microarray analysis to identify genes showing altered expression compared with control animals. We identified 166 differentially expressed genes, of which 104 were up-regulated. A subset of the up-regulated genes was shown to have altered expression in mutants with decreased or increased Wnt signaling; we consider these genes to be bona fide C. elegans Wnt pathway targets. Among these was a group of six genes, including the cuticular collagen genes, bli-1 col-38, col-49, and col-71. These genes show a peak of expression in the mid L4 stage during normal development, suggesting a role in adult cuticle formation. Consistent with this finding, reduction of function for several of the genes causes phenotypes suggestive of defects in cuticle function or integrity. Therefore, this work has identified a large number of putative Wnt pathway target genes during larval life, including a small subset of Wnt-regulated collagen genes that may function in synthesis of the adult cuticle.

Published
2014
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39. β-catenin-dependent Wnt signaling in C. elegans: teaching an old dog a new trick.

Author

Jackson BM and Eisenmann DM

Subjects
Animals, Caenorhabditis elegans metabolism, Cell Movement physiology, Models, Biological, Nerve Tissue cytology, Nerve Tissue embryology, Caenorhabditis elegans embryology, Caenorhabditis elegans Proteins metabolism, Cytoskeletal Proteins metabolism, Embryonic Induction physiology, Endoderm embryology, Mitogen-Activated Protein Kinases metabolism, Wnt Signaling Pathway physiology, beta Catenin metabolism
Abstract

Wnt signaling is an evolutionarily ancient pathway used to regulate many events during metazoan development. Genetic results from Caenorhabditis elegans more than a dozen years ago suggested that Wnt signaling in this nematode worm might be different than in vertebrates and Drosophila: the worm had a small number of Wnts, too many β-catenins, and some Wnt pathway components functioned in an opposite manner than in other species. Work over the ensuing years has clarified that C. elegans does possess a canonical Wnt/β-catenin signaling pathway similar to that in other metazoans, but that the majority of Wnt signaling in this species may proceed via a variant Wnt/β-catenin signaling pathway that uses some new components (mitogen-activated protein kinase signaling enzymes), and in which some conserved pathway components (β-catenin, T-cell factor [TCF]) are used in new and interesting ways. This review summarizes our current understanding of the canonical and novel TCF/β-catenin-dependent signaling pathways in C. elegans.

Published
2012
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