Chunsheng Ma scite author profile

Vertebrate oocyte maturation is an extreme form of asymmetric cell division, producing a mature egg alongside a diminutive polar body. Critical to this process is the attachment of one spindle pole to the oocyte cortex prior to anaphase. We report here that asymmetric spindle pole attachment and anaphase initiation are required for localized cortical activation of Cdc42, which in turn defines the surface of the impending polar body. The Cdc42 activity zone overlaps with dynamic F-actin, and is circumscribed by a RhoA-based actomyosin contractile ring. During cytokinesis, constriction of the RhoA contractile ring is accompanied by Cdc42-mediated membrane outpocketing such that one spindle pole and one set of chromosomes are pulled into the Cdc42 enclosure. Unexpectedly, the guanine nucleotide exchange factor Ect2, which is necessary for contractile ring formation, does not co-localize with active RhoA. Polar body emission thus requires a classical RhoA contractile ring and Cdc42-mediated membrane protrusion.

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Cdc42 Activation Couples Spindle Positioning to First Polar Body Formation in Oocyte Maturation

Benink

Cheng

et al. 2006

Current Biology

108

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During vertebrate egg maturation, cytokinesis initiates after one pole of the bipolar metaphase I spindle attaches to the oocyte cortex, resulting in the formation of a polar body and the mature egg. It is not known what signal couples the spindle pole positioning to polar body formation. We approached this question by drawing an analogy to mitotic exit in budding yeast, as asymmetric spindle attachment to the appropriate cortical region is the common regulatory cue. In budding yeast, the small G protein Cdc42 plays an important role in mitotic exit following the spindle pole attachment . We show here that inhibition of Cdc42 activation blocks polar body formation. The oocytes initiate anaphase but fail to properly form and direct a contractile ring. Endogenous Cdc42 is activated at the spindle pole-cortical contact site immediately prior to polar body formation. The cortical Cdc42 activity zone, which directly overlays the spindle pole, is circumscribed by a cortical RhoA activity zone; the latter defines the cytokinetic contractile furrow . As the RhoA ring contracts during cytokinesis, the Cdc42 zone expands, maintaining its complementary relationship with the RhoA ring. Cdc42 signaling may thus be an evolutionarily conserved mechanism that couples spindle positioning to asymmetric cytokinesis.

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Matched-pairs tests of homogeneity with applications to homologous nucleotide sequences

et al. 2006

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Families of spatio-temporal stationary covariance models

2003

Journal of Statistical Planning and Inference

102

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Regulation of Xenopus oocyte meiosis arrest by G protein βγ subunits

et al. 2001

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Chunsheng Ma

Polar Body Emission Requires a RhoA Contractile Ring and Cdc42-Mediated Membrane Protrusion

Cdc42 Activation Couples Spindle Positioning to First Polar Body Formation in Oocyte Maturation

Matched-pairs tests of homogeneity with applications to homologous nucleotide sequences

Families of spatio-temporal stationary covariance models

Regulation of Xenopus oocyte meiosis arrest by G protein βγ subunits

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