Non-canonical Wnt signals are modulated by the Kaiso transcriptional repressor and p120-catenin

Si Wan Kim; Jae Il Park; Christopher M. Spring; Amy K. Sater; Hong Ji; Abena A. Otchere; Juliet M. Daniel; Pierre D. McCrea

doi:10.1038/ncb1191

Non-canonical Wnt signals are modulated by the Kaiso transcriptional repressor and p120-catenin

Si Wan Kim, Jae Il Park, Christopher M. Spring, Amy K. Sater, Hong Ji, Abena A. Otchere, Juliet M. Daniel, Pierre D. McCrea

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139 Scopus citations

Abstract

Gastrulation movements are critical for establishing the three principal germ layers and the basic architecture of vertebrate embryos. Although the individual molecules and pathways involved are not clearly understood, non-canonical Wnt signals are known to participate in developmental processes, including planar cell polarity and directed cell rearrangements. Here we demonstrate that the dual-specificity transcriptional repressor Kaiso, first identified in association with p120-catenin, is required for Xenopus gastrulation movements. In addition, depletion of xKaiso results in increased expression of the non-canonical xWnt11, which contributes to the xKaiso knockdown phenotype as it is significantly rescued by dominant-negative Wnt11. We further demonstrate that xWnt11 is a direct gene target of xKaiso and that p120-catenin association relieves xKaiso repression in vivo. Our results indicate that p120-catenin and Kaiso are essential components of a new developmental gene regulatory pathway that controls vertebrate morphogenesis.

Original language	English (US)
Pages (from-to)	1212-1220
Number of pages	9
Journal	Nature cell biology
Volume	6
Issue number	12
DOIs	https://doi.org/10.1038/ncb1191
State	Published - Dec 2004

ASJC Scopus subject areas

Cell Biology

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@article{7ef1fcecfdcb4549bf896eabd2141e77,

title = "Non-canonical Wnt signals are modulated by the Kaiso transcriptional repressor and p120-catenin",

abstract = "Gastrulation movements are critical for establishing the three principal germ layers and the basic architecture of vertebrate embryos. Although the individual molecules and pathways involved are not clearly understood, non-canonical Wnt signals are known to participate in developmental processes, including planar cell polarity and directed cell rearrangements. Here we demonstrate that the dual-specificity transcriptional repressor Kaiso, first identified in association with p120-catenin, is required for Xenopus gastrulation movements. In addition, depletion of xKaiso results in increased expression of the non-canonical xWnt11, which contributes to the xKaiso knockdown phenotype as it is significantly rescued by dominant-negative Wnt11. We further demonstrate that xWnt11 is a direct gene target of xKaiso and that p120-catenin association relieves xKaiso repression in vivo. Our results indicate that p120-catenin and Kaiso are essential components of a new developmental gene regulatory pathway that controls vertebrate morphogenesis.",

author = "Kim, {Si Wan} and Park, {Jae Il} and Spring, {Christopher M.} and Sater, {Amy K.} and Hong Ji and Otchere, {Abena A.} and Daniel, {Juliet M.} and McCrea, {Pierre D.}",

note = "Funding Information: We thank B. M. Gumbiner for the anti-E-cadherin antibody; R. Keller for xWnt11 and dnxWnt11 plasmids; J. B. Wallingford and R. M. Harland for xDsh constructs; and L. Etkin, M. Jamrich and members of the McCrea laboratory for critical reading of the manuscript. This work was supported by National Institutes of Health grant RO1 (GM52112) and an Institutional Research Grant to P.D.M., as well as a grant from the Canadian Institutes of Health Research (MOP 42045) to J.M.D. DNA sequencing and other core facilities were supported by the University of Texas M.D. Anderson Cancer Center NCI Core Grant CA-16672.",

year = "2004",

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doi = "10.1038/ncb1191",

language = "English (US)",

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AU - Kim, Si Wan

AU - Park, Jae Il

AU - Spring, Christopher M.

AU - Sater, Amy K.

AU - Ji, Hong

AU - Otchere, Abena A.

AU - Daniel, Juliet M.

AU - McCrea, Pierre D.

N1 - Funding Information: We thank B. M. Gumbiner for the anti-E-cadherin antibody; R. Keller for xWnt11 and dnxWnt11 plasmids; J. B. Wallingford and R. M. Harland for xDsh constructs; and L. Etkin, M. Jamrich and members of the McCrea laboratory for critical reading of the manuscript. This work was supported by National Institutes of Health grant RO1 (GM52112) and an Institutional Research Grant to P.D.M., as well as a grant from the Canadian Institutes of Health Research (MOP 42045) to J.M.D. DNA sequencing and other core facilities were supported by the University of Texas M.D. Anderson Cancer Center NCI Core Grant CA-16672.

PY - 2004/12

Y1 - 2004/12

N2 - Gastrulation movements are critical for establishing the three principal germ layers and the basic architecture of vertebrate embryos. Although the individual molecules and pathways involved are not clearly understood, non-canonical Wnt signals are known to participate in developmental processes, including planar cell polarity and directed cell rearrangements. Here we demonstrate that the dual-specificity transcriptional repressor Kaiso, first identified in association with p120-catenin, is required for Xenopus gastrulation movements. In addition, depletion of xKaiso results in increased expression of the non-canonical xWnt11, which contributes to the xKaiso knockdown phenotype as it is significantly rescued by dominant-negative Wnt11. We further demonstrate that xWnt11 is a direct gene target of xKaiso and that p120-catenin association relieves xKaiso repression in vivo. Our results indicate that p120-catenin and Kaiso are essential components of a new developmental gene regulatory pathway that controls vertebrate morphogenesis.

AB - Gastrulation movements are critical for establishing the three principal germ layers and the basic architecture of vertebrate embryos. Although the individual molecules and pathways involved are not clearly understood, non-canonical Wnt signals are known to participate in developmental processes, including planar cell polarity and directed cell rearrangements. Here we demonstrate that the dual-specificity transcriptional repressor Kaiso, first identified in association with p120-catenin, is required for Xenopus gastrulation movements. In addition, depletion of xKaiso results in increased expression of the non-canonical xWnt11, which contributes to the xKaiso knockdown phenotype as it is significantly rescued by dominant-negative Wnt11. We further demonstrate that xWnt11 is a direct gene target of xKaiso and that p120-catenin association relieves xKaiso repression in vivo. Our results indicate that p120-catenin and Kaiso are essential components of a new developmental gene regulatory pathway that controls vertebrate morphogenesis.

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Non-canonical Wnt signals are modulated by the Kaiso transcriptional repressor and p120-catenin

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