Andrea L. Lewellyn scite author profile

The natural arrest of vertebrate unfertilized eggs in second meiotic metaphase results from the activity of cytostatic factor (CSF). The product of the c-mos(xe) proto-oncogene is thought to be a component of CSF and can induce metaphase arrest when injected into blastomeres of two-cell embryos. The c-Mos(xe) protein can directly activate the mitogen-activated protein kinase kinase (MAP kinase kinase) in vitro, leading to activation of MAP kinase. MAP kinase and c-Mos(xe) are active in unfertilized eggs and are rapidly inactivated after fertilization. Microinjection of thiophosphorylated MAP kinase into one blastomere of a two-cell embryo induced metaphase arrest similar to that induced by c-Mos(xe). However, only arrest with c-Mos(xe) was associated with activation of endogenous MAP kinase. These results indicate that active MAP kinase is a component of CSF in Xenopus and suggest that the CSF activity of c-Mos(xe) is mediated by MAP kinase.

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Ionizing radiation induces apoptosis and elevates cyclin A1-Cdk2 activity before but not after the midblastula transition in Xenopus.

Anderson

Lewellyn

Maller

1997

MBoC

104

120

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After the twelfth cell division in Xenopus embryos, zygotic gene transcription is activated, cells become motile, and cell division becomes asynchronous. This developmental change is termed the midblastula transition. High doses of gamma-irradiation (gamma-IR) before the midblastula transition induced apoptotic cell death and increased the levels of cyclin A1 and cyclin A1-Cdk2 activity. The addition of recombinant cyclin A1-Cdk2 induced the formation of apoptotic nuclei in Xenopus egg extracts, suggesting a role for cyclin A1-Cdk2 in apoptosis. Hallmarks of apoptosis, such as internucleosomal DNA fragmentation, pyknotic and uniformly condensed nuclei, and loss of intercellular attachments, were evident in embryos exposed to gamma-IR before the midblastula transition. Apoptotic cells accumulated in the blastocoel, suggesting that before the midblastula transition Xenopus embryos use apoptosis to eliminate cells containing damaged DNA. However, embryos treated with the same dose of gamma-IR after the midblastula transition developed normally and exhibited no signs of apoptosis, no change in cyclin A1 level, and no increase in cyclin A1-Cdk2 activity. These results indicate that there is a change in the response to DNA damage at the midblastula transition in Xenopus embryos.

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Induction of Metaphase Arrest in Cleaving Xenopus Embryos by the Protein Kinase p90 ^Rsk

Größ

Schwab

Lewellyn

et al. 1999

Science

134

115

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Before fertilization, vertebrate eggs are arrested in metaphase of meiosis II by cytostatic factor (CSF), an activity that requires activation of the mitogen-activated protein kinase (MAPK) pathway. To investigate whether CSF arrest is mediated by the protein kinase p90Rsk, which is phosphorylated and activated by MAPK, a constitutively activated (CA) form of Rsk was expressed in Xenopus embryos. Expression of CA Rsk resulted in cleavage arrest, and cytological analysis showed that arrested blastomeres were in M phase with prominent spindles characteristic of meiotic metaphase. Thus, Rsk appears to be the mediator of MAPK-dependent CSF arrest in vertebrate unfertilized eggs.

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Induction of Xenopus Oocyte Meiotic Maturation by MAP Kinase

Haccard

Lewellyn

Hartley

et al. 1995

Developmental Biology

155

105

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Mitogen-activated protein kinase (MAPK) is one of the protein kinases activated during meiotic maturation of Xenopus laevis oocytes. The c-Mosxe protein kinase, which has been shown to be sufficient to promote germinal vesicle breakdown (GVBD) in meiosis I, can directly activate MAP kinase kinase in vitro and leads to the activation of MAPK in vivo. Recently we have shown that constitutively activated MAPK induces metaphase arrest when injected into one blastomere of a two-cell embryo. This arrest mimics the natural arrest of vertebrate unfertilized eggs in second meiotic metaphase due to cytostatic factor and c-Mosxe activity. We show here that microinjection of constitutively activated thiophosphorylated MAPK into resting oocytes is able to activate maturation-promoting factor (MPF) and promote GVBD. These results strongly support the hypothesis that MAPK plays an important role in the pathway that links c-Mosxe to the activation of MPF.

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