Wnt Signaling and a Hox Protein Cooperatively Regulate PSA-3/Meis to Determine Daughter Cell Fate after Asymmetric Cell Division in C. elegans

Yukinobu Arata; Hiroko Kouike; Yanping Zhang; Michael A. Herman; Hideyuki Okano; Hitoshi Sawa

doi:10.1016/j.devcel.2006.04.020

Wnt Signaling and a Hox Protein Cooperatively Regulate PSA-3/Meis to Determine Daughter Cell Fate after Asymmetric Cell Division in C. elegans

Yukinobu Arata, Hiroko Kouike, Yanping Zhang, Michael A. Herman, Hideyuki Okano, Hitoshi Sawa

Department of Physiology

Research output: Contribution to journal › Article › peer-review

49 Citations (Scopus)

Abstract

Asymmetric cell division is a mechanism for achieving cellular diversity. In C. elegans, many asymmetric cell divisions are controlled by the Wnt-MAPK pathway through POP-1/TCF. It is poorly understood, however, how POP-1 determines the specific fates of daughter cells. We found that nob-1/Hox, ceh-20/Pbx, and a Meis-related gene, psa-3, are required for asymmetric division of the T hypodermal cell. psa-3 expression was asymmetric between the T cell daughters, and it was regulated by POP-1 through a POP-1 binding site in the psa-3 gene. psa-3 expression was also regulated by NOB-1 and CEH-20 through a NOB-1 binding sequence in a psa-3 intron. PSA-3 can bind CEH-20 and function after the T cell division to promote the proper fate of the daughter cell. These results indicate that cooperation between Wnt signaling and a Hox protein functions to determine the specific fate of a daughter cell.

Original language	English
Pages (from-to)	105-115
Number of pages	11
Journal	Developmental Cell
Volume	11
Issue number	1
DOIs	https://doi.org/10.1016/j.devcel.2006.04.020
Publication status	Published - 2006 Jul

Keywords

DEVBIO
DNA
SIGNALING

ASJC Scopus subject areas

Molecular Biology
Biochemistry, Genetics and Molecular Biology(all)
Developmental Biology
Cell Biology

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10.1016/j.devcel.2006.04.020

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@article{f9e80cfdf437467cb529fba938cd8d0f,

title = "Wnt Signaling and a Hox Protein Cooperatively Regulate PSA-3/Meis to Determine Daughter Cell Fate after Asymmetric Cell Division in C. elegans",

abstract = "Asymmetric cell division is a mechanism for achieving cellular diversity. In C. elegans, many asymmetric cell divisions are controlled by the Wnt-MAPK pathway through POP-1/TCF. It is poorly understood, however, how POP-1 determines the specific fates of daughter cells. We found that nob-1/Hox, ceh-20/Pbx, and a Meis-related gene, psa-3, are required for asymmetric division of the T hypodermal cell. psa-3 expression was asymmetric between the T cell daughters, and it was regulated by POP-1 through a POP-1 binding site in the psa-3 gene. psa-3 expression was also regulated by NOB-1 and CEH-20 through a NOB-1 binding sequence in a psa-3 intron. PSA-3 can bind CEH-20 and function after the T cell division to promote the proper fate of the daughter cell. These results indicate that cooperation between Wnt signaling and a Hox protein functions to determine the specific fate of a daughter cell.",

keywords = "DEVBIO, DNA, SIGNALING",

author = "Yukinobu Arata and Hiroko Kouike and Yanping Zhang and Herman, {Michael A.} and Hideyuki Okano and Hitoshi Sawa",

note = "Funding Information: We thank the Caenorhabditis Genetics Center, the National BioResource Project, and the C. elegans Gene Knockout Consortium for strains; M. Stern and E. Chen for the ceh-20 rescuing plasmid; K. Van Auken for nob-1 mutants; Y. Kohara for cDNAs; J. Nakayama for the purified GST antibody; J. Griffiths for technical assistance; and L. Tuda, T. Yamamoto, I. Matsuo, S. Kuraku, and members of the Sawa laboratory for helpful discussions and comments. This work was supported by the Special Postdoctoral Researchers Program, Riken (Y.A.); by a grant from the Japanese Ministry of Education, Culture, Sports, Science and Technology; and by National Institutes of Health grant GM56339 (M.A.H). ",

year = "2006",

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language = "English",

volume = "11",

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T1 - Wnt Signaling and a Hox Protein Cooperatively Regulate PSA-3/Meis to Determine Daughter Cell Fate after Asymmetric Cell Division in C. elegans

AU - Arata, Yukinobu

AU - Kouike, Hiroko

AU - Zhang, Yanping

AU - Herman, Michael A.

AU - Okano, Hideyuki

AU - Sawa, Hitoshi

N1 - Funding Information: We thank the Caenorhabditis Genetics Center, the National BioResource Project, and the C. elegans Gene Knockout Consortium for strains; M. Stern and E. Chen for the ceh-20 rescuing plasmid; K. Van Auken for nob-1 mutants; Y. Kohara for cDNAs; J. Nakayama for the purified GST antibody; J. Griffiths for technical assistance; and L. Tuda, T. Yamamoto, I. Matsuo, S. Kuraku, and members of the Sawa laboratory for helpful discussions and comments. This work was supported by the Special Postdoctoral Researchers Program, Riken (Y.A.); by a grant from the Japanese Ministry of Education, Culture, Sports, Science and Technology; and by National Institutes of Health grant GM56339 (M.A.H).

PY - 2006/7

Y1 - 2006/7

N2 - Asymmetric cell division is a mechanism for achieving cellular diversity. In C. elegans, many asymmetric cell divisions are controlled by the Wnt-MAPK pathway through POP-1/TCF. It is poorly understood, however, how POP-1 determines the specific fates of daughter cells. We found that nob-1/Hox, ceh-20/Pbx, and a Meis-related gene, psa-3, are required for asymmetric division of the T hypodermal cell. psa-3 expression was asymmetric between the T cell daughters, and it was regulated by POP-1 through a POP-1 binding site in the psa-3 gene. psa-3 expression was also regulated by NOB-1 and CEH-20 through a NOB-1 binding sequence in a psa-3 intron. PSA-3 can bind CEH-20 and function after the T cell division to promote the proper fate of the daughter cell. These results indicate that cooperation between Wnt signaling and a Hox protein functions to determine the specific fate of a daughter cell.

AB - Asymmetric cell division is a mechanism for achieving cellular diversity. In C. elegans, many asymmetric cell divisions are controlled by the Wnt-MAPK pathway through POP-1/TCF. It is poorly understood, however, how POP-1 determines the specific fates of daughter cells. We found that nob-1/Hox, ceh-20/Pbx, and a Meis-related gene, psa-3, are required for asymmetric division of the T hypodermal cell. psa-3 expression was asymmetric between the T cell daughters, and it was regulated by POP-1 through a POP-1 binding site in the psa-3 gene. psa-3 expression was also regulated by NOB-1 and CEH-20 through a NOB-1 binding sequence in a psa-3 intron. PSA-3 can bind CEH-20 and function after the T cell division to promote the proper fate of the daughter cell. These results indicate that cooperation between Wnt signaling and a Hox protein functions to determine the specific fate of a daughter cell.

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KW - DNA

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Wnt Signaling and a Hox Protein Cooperatively Regulate PSA-3/Meis to Determine Daughter Cell Fate after Asymmetric Cell Division in C. elegans

Abstract

Keywords

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