Cdc2 and Mos Regulate Emi2 Stability to Promote the Meiosis I–Meiosis II Transition

Tang, Wanli; Wu, Judy Qiju; Guo, Yanxiang; Hansen, David V.; Perry, Jennifer A.; Freel, Christopher D.; Nutt, Leta K.; Jackson, Peter K.; Kornbluth, Sally

doi:10.1091/mbc.e08-04-0417

Cited by 34 publications

(36 citation statements)

References 38 publications

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“…This is consistent with Mos-induced stabilization of MPF (Tachibana et al, 2000;Dupre et al, 2002;Kishimoto, 2003;Tang et al, 2008) and causes re-entry into additional rounds of meiotic M phase in urochordates (Fig. 6).…”

Section: Mos/mapk Activity Limits the Number Of Meioses In The Eggsupporting

confidence: 85%

“…This is not the case for meiosis. During maternal meiosis even though cyclin B destruction ensures exit from meiosis I in both urochordates and vertebrates oocytes, MPF activity comes back to drive entry into meiosis II (Levasseur and McDougall, 2000;Dupre et al, 2002;Herbert et al, 2003;Madgwick et al, 2006;Tang et al, 2008). This is probably due to the precocious inhibition of APC/C after anaphase I thereby allowing for early accumulation of cyclin B during interkinesis (Iwabuchi et al, 2000;Madgwick et al, 2006;Tang et al, 2008).…”

Section: Mos/mapk Activity Limits the Number Of Meioses In The Eggmentioning

confidence: 99%

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Mos limits the number of meiotic divisions in urochordate eggs

et al. 2011

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SUMMARYMos kinase is a universal mediator of oocyte meiotic maturation and is produced during oogenesis and destroyed after fertilization. The hallmark of maternal meiosis is that two successive M phases (meiosis I and II) drive two rounds of asymmetric cell division (ACD). However, how the egg limits the number of meioses to just two, thereby preventing gross aneuploidy, is poorly characterized. Here, in urochordate eggs, we show that loss of Mos/MAPK activity is necessary to prevent entry into meiosis III. Remarkably, maintaining the Mos/MAPK pathway active after fertilization at near physiological levels induces additional rounds of meiotic M phase (meiosis III, IV and V). During these additional rounds of meiosis, the spindle is positioned asymmetrically resulting in further rounds of ACD. In addition, inhibiting meiotic exit with Mos prevents pronuclear formation, cyclin A accumulation and maintains sperm-triggered Ca 2+ oscillations, all of which are hallmarks of the meiotic cell cycle in ascidians. It will be interesting to determine whether Mos availability in mammals can also control the number of meioses as it does in the urochordates. Our results demonstrate the power of urochordate eggs as a model to dissect the egg-to-embryo transition.

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Section: Mos/mapk Activity Limits the Number Of Meioses In The Eggsupporting

confidence: 85%

Section: Mos/mapk Activity Limits the Number Of Meioses In The Eggmentioning

confidence: 99%

Mos limits the number of meiotic divisions in urochordate eggs

et al. 2011

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“…Emi1 has been identified first as a negative regulator of APC/C in Xenopus eggs and cell-free extracts (Reimann et al 2001a;Reimann et al 2001b;Reimann and Jackson 2002). Thereafter, an Emi1-related protein named Emi2/xErp1 has been identified and characterized as an essential component of CSF inhibition of APC/C (Hansen et al 2006;Liu and Maller 2005;Rauh et al 2005;Tang et al 2008;Tung et al 2005;Wu et al 2007a;Wu et al 2007b). In the current scenario, CSF arrest by Emi2/xErp1 of APC/C involves recruitment of PP2A to the Rsk-phosphorylated Emi2/xErp1 (this phosphorylation has stabilizing effect on Emi2/xErp1) and its phosphatase action on other phosphates in Emi2/xErp1 catalyzed by Cdc2/cyclin B complex (this phosphorylation weakens Emi2/xErp1).…”

Section: Emi1 and Emi2/xerp1mentioning

confidence: 99%

Phospho-Signaling at Oocyte Maturation and Fertilization: Set Up for Embryogenesis and Beyond Part II. Kinase Regulators and Substrates

Hasan¹,

Mutoh²,

Kihira³

et al. 2012

Embryogenesis

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“…Kinase activity of cdc/CDK/MPF has been sometimes regarded as "histone H1 kinase (H1K or HH1K)" because of its in vitro evaluation. Cellular targets of cdc/CDK kinases include aurora kinase and Emi2, which are implicated in chromosomal integrity and meiotic arrest, respectively (Anger et al 2004;Castilho et al 2009;Culp and Musci 1999;Eckberg 1997;Edgecombe et al 1991;Ferrell 1999;Ferrell et al 1991;Gavin et al 1999;Grieco et al 1996;Gutierrez et al 2006;Karaiskou et al 1998;Karaiskou et al 2004;Katsu et al 1999;Kume et al 2007;Kuo et al 2011;Lohka et al 1988;Masui 2000;Maton et al 2005;Maton et al 2003;Meijer et al 1989a;Meijer et al 1991;Meijer et al 1989b;Palmer et al 1998;Qian et al 2001;Rime et al 1994;Ruiz et al 2008;Sakamoto et al 1998;Tang et al 2008;Tokmakov et al 2005;Wu et al 2007b;Yu et al 2005;Yu et al 2004).…”

Section: Cyclin-dependent Protein Kinase (Cdc2/cdk/mpf)mentioning

confidence: 99%

“…Mos contribute in the first cycle of Xenopus embryogenesis (Murakami and Vande Woude 1998) and act like Mos/Raf-1/MAPK pathway (Muslin et al 1993) or without Raf like Mos/MAPK pathway both in Xenopus (Shibuya et al 1996) and mouse (Verlhac et al 1996). Mos is also involved in MAPK cascade in the control of microtubule and chromatin organization during meiosis in mouse oocytes (Chesnel et al 1997;Culp and Musci 1999;Daar et al 1993;Faure et al 1998;Mendez et al 2000;Murakami and Vande Woude 1998;Muslin et al 1993;Shibuya et al 1992;Shibuya et al 1996;Tang et al 2008;Verlhac et al 1996;Wu et al 2007a). …”

Section: Mos Protein Kinase (Mos)mentioning

confidence: 99%