Developmental Signals - Wnt: Difference between revisions
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==Function== | ==Function== | ||
===Body Axis=== | |||
'''Wnt signaling and the polarity of the primary body axis'''<ref name="PMID20005801"><pubmed>20005801</pubmed></ref>"Data from diverse deuterostomes (frog, fish, mouse, and amphioxus) and from planarians (protostomes) suggest that Wnt signaling through beta-catenin controls posterior identity during body plan formation in most bilaterally symmetric animals." | |||
===Neural=== | ===Neural=== | ||
"Wnts are antagonised by Shh signalling. By demonstrating that Wnt4 expression in the thalamus is repressed by Shh from the ZLI we reveal an additional level of interaction between these two pathways and provide an example for the cross-regulation between patterning centres during forebrain regionalisation."<ref name="PMID19732418"><pubmed>19732418</pubmed>[http://www.neuraldevelopment.com/content/4/1/35 Neural Dev.]</ref> (More? [[Neural System Development]]) | "Wnts are antagonised by Shh signalling. By demonstrating that Wnt4 expression in the thalamus is repressed by Shh from the ZLI we reveal an additional level of interaction between these two pathways and provide an example for the cross-regulation between patterning centres during forebrain regionalisation."<ref name="PMID19732418"><pubmed>19732418</pubmed>[http://www.neuraldevelopment.com/content/4/1/35 Neural Dev.]</ref> (More? [[Neural System Development]]) | ||
[[File:Chicken-_neural_Wnt_expression.jpg|thumb|Chicken embryo neural Wnt 1 and Wnt 6 expression<ref name="PMID19732418" />]] | [[File:Chicken-_neural_Wnt_expression.jpg|thumb|Chicken embryo neural Wnt 1 and Wnt 6 expression<ref name="PMID19732418" />]] | ||
===Muscle=== | |||
'''Wnt signaling promotes AChR aggregation at the neuromuscular synapse'''<ref name="PMID19020093"><pubmed>19020093</pubmed></ref> | |||
:"Wnt proteins regulate the formation of central synapses by stimulating synaptic assembly, but their role at the vertebrate neuromuscular junction (NMJ) is unclear. Wnt3 is expressed by lateral motoneurons of the spinal cord during the period of motoneuron-muscle innervation. ...Wnt3 does not signal through the canonical Wnt pathway to induce cluster formation. Instead, Wnt3 induces the rapid formation of unstable AChR micro-clusters through activation of Rac1, which aggregate into large clusters only in the presence of agrin." | :"Wnt proteins regulate the formation of central synapses by stimulating synaptic assembly, but their role at the vertebrate neuromuscular junction (NMJ) is unclear. Wnt3 is expressed by lateral motoneurons of the spinal cord during the period of motoneuron-muscle innervation. ...Wnt3 does not signal through the canonical Wnt pathway to induce cluster formation. Instead, Wnt3 induces the rapid formation of unstable AChR micro-clusters through activation of Rac1, which aggregate into large clusters only in the presence of agrin." |
Revision as of 14:53, 29 September 2010
Introduction
A secreted glycoprotein patterning switch with different roles in different tissues and signaling has generally been divided into the canonical and non-canonical pathways. The name was derived from two drosophila phenotypes wingless and int and the gene was first defined as a protooncogene, int1. Humans have 19 identified members, with the major subgroup of Wnts (WNT1, WNT3A, WNT8) signaling through activation of beta-catenin dependent transcription from at least 4 WNT genes encoding secreted glycoproteins. At least one wnt receptor called frizzled (FZD). Wnt7a is secreted protein and binds to extracellular matrix. The mechanism of Wnt distribution (free diffusion, restricted diffusion and active transport) and all its possible cell receptors are still being determined. In the gastrointestinal system, Wnt maintains the pool of undifferentiated intestinal progenitor cells and control maturation and correct positioning of the Paneth cell (a differentiated intestinal cell type).
The Wnt/beta-catenin signal pathway activation has also been identified in several cancers and appears to drive cell-cycle progression.
If you are interested in this family of proteins, look also at Roel Nusse -The Wnt Homepage.
Some Recent Findings
Function
Body Axis
Wnt signaling and the polarity of the primary body axis[1]"Data from diverse deuterostomes (frog, fish, mouse, and amphioxus) and from planarians (protostomes) suggest that Wnt signaling through beta-catenin controls posterior identity during body plan formation in most bilaterally symmetric animals."
Neural
"Wnts are antagonised by Shh signalling. By demonstrating that Wnt4 expression in the thalamus is repressed by Shh from the ZLI we reveal an additional level of interaction between these two pathways and provide an example for the cross-regulation between patterning centres during forebrain regionalisation."[2] (More? Neural System Development)
Muscle
Wnt signaling promotes AChR aggregation at the neuromuscular synapse[3]
- "Wnt proteins regulate the formation of central synapses by stimulating synaptic assembly, but their role at the vertebrate neuromuscular junction (NMJ) is unclear. Wnt3 is expressed by lateral motoneurons of the spinal cord during the period of motoneuron-muscle innervation. ...Wnt3 does not signal through the canonical Wnt pathway to induce cluster formation. Instead, Wnt3 induces the rapid formation of unstable AChR micro-clusters through activation of Rac1, which aggregate into large clusters only in the presence of agrin."
Vascular Development - Canonical Wnt signaling regulates organ-specific assembly and differentiation of CNS vasculature. Stenman JM, Rajagopal J, Carroll TJ, Ishibashi M, McMahon J, McMahon AP. Science. 2008 Nov 21;322(5905):1247-50. PMID:19023080
- "The central nervous system (CNS) vasculature consists of a tightly sealed endothelium that forms the blood-brain barrier, whereas blood vessels of other organs are more porous. Wnt7a and Wnt7b encode two Wnt ligands produced by the neuroepithelium of the developing CNS coincident with vascular invasion. Using genetic mouse models, we found that these ligands directly target the vascular endothelium and that the CNS uses the canonical Wnt signaling pathway to promote formation and CNS-specific differentiation of the organ's vasculature"
(More? Vascular Development)
Signaling Pathway
At least 3 separate signaling pathways have been identified in relation to Wnt singnaling.
- Canonical pathway
- Non-canonical or planar cell polarity pathway
- Wnt-Calcium ion pathway
Canonical Pathway
- Wnt binds the surface receptor Frizzled (Fz) and LRP5/6 receptor complex
- Induces the stabilization of beta-catenin (through the DIX and PDZ domains of Dishevelled and other factors including Axin, glycogen synthase kinase 3 and casein kinase 1)
- Beta-catenin translocates into the nucleus
- Beta-catenin complexes with members of the LEF/TCF family of transcription factors.
- Transcriptional induction of target genes.
- Beta-catenin is then exported from the nucleus and degraded via the proteosomal machinery.
Non-Canonical Pathway
(Planar Cell Polarity Pathway)
- Wnt binds the surface receptor Frizzled (Fz) independent of the LRP5/6 receptor complex.
- Acts through Dishevelled (PDZ and DEP domains)
- Mediates cytoskeletal (microfilament) changes through activation of the small GTPases Rho and Rac.
Wnt-Calcium Ion Pathway
- Wnt binds the surface receptor Frizzled (Fz) and mediates activation of heterotrimeric G-proteins.
- Acts internally through Dsh, phospholipase C, calcium-calmodulin kinase 2 (CamK2) and protein kinase C (PKC).
- has various cellular functions including cell adhesion and motility.
Protein Data
- FUNCTION: PROBABLE DEVELOPMENTAL PROTEIN. SIGNALING BY WNT-7A ALLOWS SEXUALLY DIMORPHIC DEVELOPMENT OF THE MULLERIAN DUCTS (BY SIMILARITY).
- SUBCELLULAR LOCATION: POSSIBLY SECRETED AND ASSOCIATES WITH THE EXTRACELLULAR MATRIX.
- TISSUE SPECIFICITY: EXPRESSION IS RESTRICTED TO PLACENTA, KIDNEY, TESTIS, UTERUS, FETAL LUNG, AND FETAL AND ADULT BRAIN.
- SIMILARITY: BELONGS TO THE WNT FAMILY.
- FUNCTION: PROBABLE DEVELOPMENTAL PROTEIN. SIGNALING BY WNT-7A ALLOWS SEXUALLY DIMORPHIC DEVELOPMENT OF THE MULLERIAN DUCTS.
- SUBCELLULAR LOCATION: POSSIBLY SECRETED AND ASSOCIATES WITH THE EXTRACELLULAR MATRIX.
- DISEASE: MALE MICE LACKING WNT-7A FAIL TO UNDERGO REGRESSION OF THE MULLERIAN DUCT AS A RESULT OF THE ABSENCE OF THE RECEPTOR FOR MULLERIAN-INHIBITING SUBSTANCE. WNT7A-DEFICIENT FEMALES ARE INFERTILE BECAUSE OF ABNORMAL DEVELOPMENT OF THE OVIDUCT AND UTERUS, BOTH OF WHICH ARE MULLERIAN DUCT DERIVATIVES.
- SIMILARITY: BELONGS TO THE WNT FAMILY.
(data from Expasy)
OMIM
- WINGLESS-TYPE MMTV INTEGRATION SITE FAMILY, MEMBER 3A; WNT3A
- WINGLESS-TYPE MMTV INTEGRATION SITE FAMILY, MEMBER 7A; WNT7A
- CATENIN, BETA-1; CTNNB1
About OMIM "Online Mendelian Inheritance in Man OMIM is a comprehensive, authoritative, and timely compendium of human genes and genetic phenotypes. The full-text, referenced overviews in OMIM contain information on all known mendelian disorders and over 12,000 genes. OMIM focuses on the relationship between phenotype and genotype. It is updated daily, and the entries contain copious links to other genetics resources." OMIM
References
Reviews
Emerging roles of Wnts in the adult nervous system. Inestrosa NC, Arenas E. Nat Rev Neurosci. 2010 Feb;11(2):77-86. Epub 2009 Dec 16. Review. PMID: 20010950
Wnt signaling and the polarity of the primary body axis. Petersen CP, Reddien PW. Cell. 2009 Dec 11;139(6):1056-68. Review. PMID: 20005801
Vascular morphogenesis: a Wnt for every vessel? Franco CA, Liebner S, Gerhardt H. Curr Opin Genet Dev. 2009 Oct;19(5):476-83. Epub 2009 Oct 26. Review. PMID: 19864126
Towards an integrated view of Wnt signaling in development. van Amerongen R, Nusse R. Development. 2009 Oct;136(19):3205-14. Review. PMID: 19736321]
Search PubMed: Wnt
External Links
The nature of the internet is that some links may change over time. If the link no longer functions, search the internet using the link term.
- The Wnt gene Homepage by Roel Nusse
- Atlas of Genetics and Cytogenetics in Oncology and Haematology - The WNT Signaling Pathway and Its Role in Human Solid Tumors
- Mouse Wnt genes
- Comparative table of all vertebrate Wnt genes
- alignments of all mammalian Wnt genes
- Other Wnt pages
Glossary Links
- Glossary: A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | Numbers | Symbols | Term Link
Cite this page: Hill, M.A. (2024, June 14) Embryology Developmental Signals - Wnt. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Developmental_Signals_-_Wnt
- © Dr Mark Hill 2024, UNSW Embryology ISBN: 978 0 7334 2609 4 - UNSW CRICOS Provider Code No. 00098G
- ↑ <pubmed>20005801</pubmed>
- ↑ 2.0 2.1 <pubmed>19732418</pubmed>Neural Dev.
- ↑ <pubmed>19020093</pubmed>