Specific deletion of Cdc42 does not affect meiotic spindle organization/migration and homologous chromosome segregation but disrupts polarity establishment and cytokinesis in mouse oocytes

Zhen-Bo Wang; Zong-Zhe Jiang; Qing-Hua Zhang; Meng-Wen Hu; Lin Huang; Xiang-Hong Ou; Lei Guo; Ying-Chun Ouyang; Yi Hou; Cord Herbert Brakebusch; Heide Schatten; Qing-Yuan Sun

doi:10.1091/mbc.E13-03-0123

Specific deletion of Cdc42 does not affect meiotic spindle organization/migration and homologous chromosome segregation but disrupts polarity establishment and cytokinesis in mouse oocytes

Zhen-Bo Wang, Zong-Zhe Jiang, Qing-Hua Zhang, Meng-Wen Hu, Lin Huang, Xiang-Hong Ou, Lei Guo, Ying-Chun Ouyang, Yi Hou, Cord Herbert Brakebusch, Heide Schatten, Qing-Yuan Sun

29 Citationer (Scopus)

Abstract

Mammalian oocyte maturation is distinguished by highly asymmetric meiotic divisions during which a haploid female gamete is produced and almost all the cytoplasm is maintained in the egg for embryo development. Actin-dependent meiosis I spindle positioning to the cortex induces the formation of a polarized actin cap and oocyte polarity, and it determines asymmetric divisions resulting in two polar bodies. Here we investigate the functions of Cdc42 in oocyte meiotic maturation by oocyte-specific deletion of Cdc42 through Cre-loxP conditional knockout technology. We find that Cdc42 deletion causes female infertility in mice. Cdc42 deletion has little effect on meiotic spindle organization and migration to the cortex but inhibits polar body emission, although homologous chromosome segregation occurs. The failure of cytokinesis is due to the loss of polarized Arp2/3 accumulation and actin cap formation; thus the defective contract ring. In addition, we correlate active Cdc42 dynamics with its function during polar body emission and find a relationship between Cdc42 and polarity, as well as polar body emission, in mouse oocytes.

Originalsprog	Engelsk
Tidsskrift	Molecular Biology of the Cell
Vol/bind	24
Udgave nummer	24
Sider (fra-til)	3832-41
Antal sider	10
ISSN	1059-1524
DOI	https://doi.org/10.1091/mbc.E13-03-0123
Status	Udgivet - 15 dec. 2013

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10.1091/mbc.E13-03-0123

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Wang, Z-B., Jiang, Z-Z., Zhang, Q-H., Hu, M-W., Huang, L., Ou, X-H., Guo, L., Ouyang, Y-C., Hou, Y., Brakebusch, C. H., Schatten, H., & Sun, Q-Y. (2013). Specific deletion of Cdc42 does not affect meiotic spindle organization/migration and homologous chromosome segregation but disrupts polarity establishment and cytokinesis in mouse oocytes. Molecular Biology of the Cell, 24(24), 3832-41. https://doi.org/10.1091/mbc.E13-03-0123

Specific deletion of Cdc42 does not affect meiotic spindle organization/migration and homologous chromosome segregation but disrupts polarity establishment and cytokinesis in mouse oocytes. / Wang, Zhen-Bo; Jiang, Zong-Zhe; Zhang, Qing-Hua et al.

I: Molecular Biology of the Cell, Bind 24, Nr. 24, 15.12.2013, s. 3832-41.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Wang, Z-B, Jiang, Z-Z, Zhang, Q-H, Hu, M-W, Huang, L, Ou, X-H, Guo, L, Ouyang, Y-C, Hou, Y, Brakebusch, CH, Schatten, H & Sun, Q-Y 2013, 'Specific deletion of Cdc42 does not affect meiotic spindle organization/migration and homologous chromosome segregation but disrupts polarity establishment and cytokinesis in mouse oocytes', Molecular Biology of the Cell, bind 24, nr. 24, s. 3832-41. https://doi.org/10.1091/mbc.E13-03-0123

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title = "Specific deletion of Cdc42 does not affect meiotic spindle organization/migration and homologous chromosome segregation but disrupts polarity establishment and cytokinesis in mouse oocytes",

abstract = "Mammalian oocyte maturation is distinguished by highly asymmetric meiotic divisions during which a haploid female gamete is produced and almost all the cytoplasm is maintained in the egg for embryo development. Actin-dependent meiosis I spindle positioning to the cortex induces the formation of a polarized actin cap and oocyte polarity, and it determines asymmetric divisions resulting in two polar bodies. Here we investigate the functions of Cdc42 in oocyte meiotic maturation by oocyte-specific deletion of Cdc42 through Cre-loxP conditional knockout technology. We find that Cdc42 deletion causes female infertility in mice. Cdc42 deletion has little effect on meiotic spindle organization and migration to the cortex but inhibits polar body emission, although homologous chromosome segregation occurs. The failure of cytokinesis is due to the loss of polarized Arp2/3 accumulation and actin cap formation; thus the defective contract ring. In addition, we correlate active Cdc42 dynamics with its function during polar body emission and find a relationship between Cdc42 and polarity, as well as polar body emission, in mouse oocytes.",

author = "Zhen-Bo Wang and Zong-Zhe Jiang and Qing-Hua Zhang and Meng-Wen Hu and Lin Huang and Xiang-Hong Ou and Lei Guo and Ying-Chun Ouyang and Yi Hou and Brakebusch, {Cord Herbert} and Heide Schatten and Qing-Yuan Sun",

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doi = "10.1091/mbc.E13-03-0123",

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T1 - Specific deletion of Cdc42 does not affect meiotic spindle organization/migration and homologous chromosome segregation but disrupts polarity establishment and cytokinesis in mouse oocytes

AU - Wang, Zhen-Bo

AU - Jiang, Zong-Zhe

AU - Zhang, Qing-Hua

AU - Hu, Meng-Wen

AU - Huang, Lin

AU - Ou, Xiang-Hong

AU - Guo, Lei

AU - Ouyang, Ying-Chun

AU - Hou, Yi

AU - Brakebusch, Cord Herbert

AU - Schatten, Heide

AU - Sun, Qing-Yuan

PY - 2013/12/15

Y1 - 2013/12/15

N2 - Mammalian oocyte maturation is distinguished by highly asymmetric meiotic divisions during which a haploid female gamete is produced and almost all the cytoplasm is maintained in the egg for embryo development. Actin-dependent meiosis I spindle positioning to the cortex induces the formation of a polarized actin cap and oocyte polarity, and it determines asymmetric divisions resulting in two polar bodies. Here we investigate the functions of Cdc42 in oocyte meiotic maturation by oocyte-specific deletion of Cdc42 through Cre-loxP conditional knockout technology. We find that Cdc42 deletion causes female infertility in mice. Cdc42 deletion has little effect on meiotic spindle organization and migration to the cortex but inhibits polar body emission, although homologous chromosome segregation occurs. The failure of cytokinesis is due to the loss of polarized Arp2/3 accumulation and actin cap formation; thus the defective contract ring. In addition, we correlate active Cdc42 dynamics with its function during polar body emission and find a relationship between Cdc42 and polarity, as well as polar body emission, in mouse oocytes.

AB - Mammalian oocyte maturation is distinguished by highly asymmetric meiotic divisions during which a haploid female gamete is produced and almost all the cytoplasm is maintained in the egg for embryo development. Actin-dependent meiosis I spindle positioning to the cortex induces the formation of a polarized actin cap and oocyte polarity, and it determines asymmetric divisions resulting in two polar bodies. Here we investigate the functions of Cdc42 in oocyte meiotic maturation by oocyte-specific deletion of Cdc42 through Cre-loxP conditional knockout technology. We find that Cdc42 deletion causes female infertility in mice. Cdc42 deletion has little effect on meiotic spindle organization and migration to the cortex but inhibits polar body emission, although homologous chromosome segregation occurs. The failure of cytokinesis is due to the loss of polarized Arp2/3 accumulation and actin cap formation; thus the defective contract ring. In addition, we correlate active Cdc42 dynamics with its function during polar body emission and find a relationship between Cdc42 and polarity, as well as polar body emission, in mouse oocytes.

U2 - 10.1091/mbc.E13-03-0123

DO - 10.1091/mbc.E13-03-0123

M3 - Journal article

C2 - 24131996

SN - 1059-1524

VL - 24

SP - 3832

EP - 3841

JO - Molecular Biology of the Cell

JF - Molecular Biology of the Cell

IS - 24

ER -

Specific deletion of Cdc42 does not affect meiotic spindle organization/migration and homologous chromosome segregation but disrupts polarity establishment and cytokinesis in mouse oocytes

Abstract

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