Human SMC2 protein, a core subunit of human condensin complex, is a novel transcriptional target of the WNT signaling pathway and a new therapeutic target

Verónica Dávalos; Lucía Súarez-López; Julio Castaño; Anthea Messent; Ibane Abasolo; Yolanda Fernandez; Angel Guerra-Moreno; Eloy Espín; Manel Armengol; Eva Musulen; Aurelio Ariza; Joan Sayós; Diego Arango; Simó Schwartz

doi:10.1074/jbc.M112.428466

Human SMC2 protein, a core subunit of human condensin complex, is a novel transcriptional target of the WNT signaling pathway and a new therapeutic target

Verónica Dávalos, Lucía Súarez-López, Julio Castaño, Anthea Messent, Ibane Abasolo, Yolanda Fernandez, Angel Guerra-Moreno, Eloy Espín, Manel Armengol, Eva Musulen, Aurelio Ariza, Joan Sayós, Diego Arango, Simó Schwartz^*

^*Corresponding author for this work

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

35 Citations (Scopus)

Abstract

Human SMC2 is part of the condensin complex, which is responsible for tightly packaging replicated genomic DNA prior to segregation into daughter cells. Engagement of the WNT signaling pathway is known to have a mitogenic effect on cells, but relatively little is known about WNT interaction with mitotic structural organizer proteins. In this work, we described the novel transcriptional regulation of SMC 2 protein by direct binding of the β-catenin·TCF4 transcription factor to the SMC2 promoter. Furthermore, we identified the precise region in the SMC2 promoter that is required for β-catenin-mediated promoter activation. Finally, we explored the functional significance of down-regulating SMC2 protein in vivo. Treatment of WNT-activated intestinal tumor cells with SMC2 siRNA significantly reduced cell proliferation in nude mice, compared with untreated controls (p = 0.02). Therefore, we propose that WNT signaling can directly activate SMC2 transcription as a key player in the mitotic cell division machinery. Furthermore, SMC2 represents a new target for oncological therapeutic intervention.

Original language	English
Pages (from-to)	43472-43481
Number of pages	10
Journal	Journal of Biological Chemistry
Volume	287
Issue number	52
DOIs	https://doi.org/10.1074/jbc.M112.428466
Publication status	Published - 21 Dec 2012

Keywords

Beta-catenin
Chromosomes/Non-histone Chromosomal proteins
T-cell factor (TFC)
Transcription regulation
WNT signaling
SMC protein
Cell division
Condensin

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Dávalos, V., Súarez-López, L., Castaño, J., Messent, A., Abasolo, I., Fernandez, Y., Guerra-Moreno, A., Espín, E., Armengol, M., Musulen, E., Ariza, A., Sayós, J., Arango, D., & Schwartz, S. (2012). Human SMC2 protein, a core subunit of human condensin complex, is a novel transcriptional target of the WNT signaling pathway and a new therapeutic target. Journal of Biological Chemistry, 287(52), 43472-43481. https://doi.org/10.1074/jbc.M112.428466

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title = "Human SMC2 protein, a core subunit of human condensin complex, is a novel transcriptional target of the WNT signaling pathway and a new therapeutic target",

abstract = "Human SMC2 is part of the condensin complex, which is responsible for tightly packaging replicated genomic DNA prior to segregation into daughter cells. Engagement of the WNT signaling pathway is known to have a mitogenic effect on cells, but relatively little is known about WNT interaction with mitotic structural organizer proteins. In this work, we described the novel transcriptional regulation of SMC 2 protein by direct binding of the β-catenin·TCF4 transcription factor to the SMC2 promoter. Furthermore, we identified the precise region in the SMC2 promoter that is required for β-catenin-mediated promoter activation. Finally, we explored the functional significance of down-regulating SMC2 protein in vivo. Treatment of WNT-activated intestinal tumor cells with SMC2 siRNA significantly reduced cell proliferation in nude mice, compared with untreated controls (p = 0.02). Therefore, we propose that WNT signaling can directly activate SMC2 transcription as a key player in the mitotic cell division machinery. Furthermore, SMC2 represents a new target for oncological therapeutic intervention.",

keywords = "Beta-catenin, Chromosomes/Non-histone Chromosomal proteins, T-cell factor (TFC), Transcription regulation, WNT signaling, SMC protein, Cell division, Condensin",

author = "Ver{\'o}nica D{\'a}valos and Luc{\'i}a S{\'u}arez-L{\'o}pez and Julio Casta{\~n}o and Anthea Messent and Ibane Abasolo and Yolanda Fernandez and Angel Guerra-Moreno and Eloy Esp{\'i}n and Manel Armengol and Eva Musulen and Aurelio Ariza and Joan Say{\'o}s and Diego Arango and Sim{\'o} Schwartz",

year = "2012",

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doi = "10.1074/jbc.M112.428466",

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Dávalos, V, Súarez-López, L, Castaño, J, Messent, A, Abasolo, I, Fernandez, Y, Guerra-Moreno, A , Espín, E , Armengol, M, Musulen, E, Ariza, A, Sayós, J, Arango, D & Schwartz, S 2012, 'Human SMC2 protein, a core subunit of human condensin complex, is a novel transcriptional target of the WNT signaling pathway and a new therapeutic target', Journal of Biological Chemistry, vol. 287, no. 52, pp. 43472-43481. https://doi.org/10.1074/jbc.M112.428466

Human SMC2 protein, a core subunit of human condensin complex, is a novel transcriptional target of the WNT signaling pathway and a new therapeutic target. / Dávalos, Verónica; Súarez-López, Lucía; Castaño, Julio et al.

In: Journal of Biological Chemistry, Vol. 287, No. 52, 21.12.2012, p. 43472-43481.

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

TY - JOUR

T1 - Human SMC2 protein, a core subunit of human condensin complex, is a novel transcriptional target of the WNT signaling pathway and a new therapeutic target

AU - Dávalos, Verónica

AU - Súarez-López, Lucía

AU - Castaño, Julio

AU - Messent, Anthea

AU - Abasolo, Ibane

AU - Fernandez, Yolanda

AU - Guerra-Moreno, Angel

AU - Espín, Eloy

AU - Armengol, Manel

AU - Musulen, Eva

AU - Ariza, Aurelio

AU - Sayós, Joan

AU - Arango, Diego

AU - Schwartz, Simó

PY - 2012/12/21

Y1 - 2012/12/21

N2 - Human SMC2 is part of the condensin complex, which is responsible for tightly packaging replicated genomic DNA prior to segregation into daughter cells. Engagement of the WNT signaling pathway is known to have a mitogenic effect on cells, but relatively little is known about WNT interaction with mitotic structural organizer proteins. In this work, we described the novel transcriptional regulation of SMC 2 protein by direct binding of the β-catenin·TCF4 transcription factor to the SMC2 promoter. Furthermore, we identified the precise region in the SMC2 promoter that is required for β-catenin-mediated promoter activation. Finally, we explored the functional significance of down-regulating SMC2 protein in vivo. Treatment of WNT-activated intestinal tumor cells with SMC2 siRNA significantly reduced cell proliferation in nude mice, compared with untreated controls (p = 0.02). Therefore, we propose that WNT signaling can directly activate SMC2 transcription as a key player in the mitotic cell division machinery. Furthermore, SMC2 represents a new target for oncological therapeutic intervention.

AB - Human SMC2 is part of the condensin complex, which is responsible for tightly packaging replicated genomic DNA prior to segregation into daughter cells. Engagement of the WNT signaling pathway is known to have a mitogenic effect on cells, but relatively little is known about WNT interaction with mitotic structural organizer proteins. In this work, we described the novel transcriptional regulation of SMC 2 protein by direct binding of the β-catenin·TCF4 transcription factor to the SMC2 promoter. Furthermore, we identified the precise region in the SMC2 promoter that is required for β-catenin-mediated promoter activation. Finally, we explored the functional significance of down-regulating SMC2 protein in vivo. Treatment of WNT-activated intestinal tumor cells with SMC2 siRNA significantly reduced cell proliferation in nude mice, compared with untreated controls (p = 0.02). Therefore, we propose that WNT signaling can directly activate SMC2 transcription as a key player in the mitotic cell division machinery. Furthermore, SMC2 represents a new target for oncological therapeutic intervention.

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KW - Chromosomes/Non-histone Chromosomal proteins

KW - T-cell factor (TFC)

KW - Transcription regulation

KW - WNT signaling

KW - SMC protein

KW - Cell division

KW - Condensin

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U2 - 10.1074/jbc.M112.428466

DO - 10.1074/jbc.M112.428466

M3 - Article

C2 - 23095742

AN - SCOPUS:84871535828

VL - 287

SP - 43472

EP - 43481

IS - 52

ER -

Human SMC2 protein, a core subunit of human condensin complex, is a novel transcriptional target of the WNT signaling pathway and a new therapeutic target

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Keywords

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