Brian N. Wroble scite author profile

Brian N. Wroble

5Publications

74Citation Statements Received

358Citation Statements Given

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Virginia Tech

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Chk2/Cds1 protein kinase blocks apoptosis during early development of Xenopus laevis

Wroble

Sible

2005

Developmental Dynamics

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Early Xenopus laevis embryos possess cell cycles that do not arrest at checkpoints in response to damaged DNA. At the midblastula transition (MBT), embryos with damaged DNA undergo apoptosis. After the MBT, DNA damage triggers cell cycle arrest rather than apoptosis. The transition from checkpoint-unregulated to checkpoint-regulated cycles makes Xenopus embryos compelling for studying mechanisms regulating response to genomic damage. The DNA damage checkpoint is mediated by the Chk2/Cds1 kinase. Conflicting evidence implicates Chk2 as an inhibitor or promoter of apoptosis. To better understand the developmental function of Chk2, we expressed wild-type (wt) and dominant-negative (DN) Chk2 in Xenopus embryos. Wt-Chk2 created a pre-MBT checkpoint due to degradation of Cdc25A and phosphorylation of cyclindependent kinases. Embryos expressing DN-Chk2 developed normally until gastrulation and then underwent apoptosis. Conversely, low doses of wt-Chk2 blocked radiation-induced apoptosis. Therefore, Chk2 operates at a switch between cell cycle arrest or apoptosis in response to genomic assaults.

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Mitochondrial Apoptosis-Induced Channel (MAC) Function Triggers a Bax/Bak-Dependent Bystander Effect

Peixoto

Lue

Ryu

et al. 2011

The American Journal of Pathology

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Collateral spread of apoptosis to nearby cells is referred to as the bystander effect, a process that is integral to tissue homeostasis and a challenge to anticancer therapies. In many systems, apoptosis relies on permeabilization of the mitochondrial outer membrane to factors such as cytochrome c and Smac/DIABLO. This permeabilization occurs via formation of a mitochondrial apoptosis-induced channel (MAC) and was mimicked here by single-cell microinjection of cytochrome c into Xenopus laevis embryos. Waves of apoptosis were observed in vivo from the injected to the neighboring cells. This finding indicates that a death signal generated downstream of cytochrome c release diffused to neighboring cells and ultimately killed the animals. The role of MAC in bystander effects was then assessed in mouse embryonic fibroblasts that did or did not express its main components, Bax and/or Bak. Exogenous expression of green fluorescent protein-Bax triggered permeabilization of the outer membrane and apoptosis in these cells. Time-lapse videos showed that neighboring cells also underwent apoptosis, but expression of Bax and/or Bak was essential to this effect, because no bystanders were observed in cells lacking both of these MAC components. These results may guide development of novel therapeutic strategies to selectively eliminate tumors or minimize the size of tissue injury in degenerative or traumatic cell death.

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Altered Expression of Chk1 Disrupts Cell Cycle Remodeling at the Midblastula Transition inXenopus laevisEmbryos

Petrus

Wilhelm²,

Murakami³

et al. 2004

Cell Cycle

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Cyclin A1/Cdk2 is Sufficient but not Required for the Induction of Apoptosis in Early Xenopus laevis Embryos

Carter¹,

Wroble²,

Sible³

2006

Cell Cycle

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The role of cyclin-dependent kinases in cell proliferation is well characterized, whereas their somewhat paradoxical role in catalyzing apoptosis is less understood. One Cdk complex implicated in both cell proliferation and cell death is cyclin A/Cdk2. During early embryonic development of Xenopus laevis, distinct isoforms of cyclin A are expressed at different times. From fertilization through gastrulation, cyclin A1 is the predominant isoform. Cyclin A1 primarily dimerizes with Cdk2 not Cdk1. In contrast, cyclin A2 is expressed at a low level until gastrulation, when it becomes the major A-type cyclin and associates with both Cdk1 and Cdk2. When Xenopus embryos are treated with ionizing radiation (IR) prior to the midblastula transition (MBT), cyclin A1 protein persists beyond the MBT and forms an active complex with Cdk2. During this window of cyclin A1/Cdk2 activity, the embryo undergoes apoptosis. To test the hypothesis that cyclin A1-associated activity is a mediator of apoptosis, cyclin A1 protein level and associated kinase activity were measured in embryos treated with aphidicolin to induce apoptosis. Both cyclin A1 content and associated kinase activity were sustained after the MBT as embryos underwent apoptosis. To determine whether cyclin A1/Cdk2 was sufficient to induce apoptosis, recombinant cyclin A1/Cdk2 complex was injected into single-celled embryos, which induced apoptosis after the MBT. However, morpholinos targeting translation of cyclins A1 and A2 did not block apoptosis in embryos treated with X-rays or aphidicolin. These data indicate that cyclin A1/Cdk2 is sufficient, but not required for apoptosis during early development.

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Wee1 kinase alters cyclin E/Cdk2 and promotes apoptosis during the early embryonic development of Xenopus laevis

2007

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Background: The cell cycles of the Xenopus laevis embryo undergo extensive remodeling beginning at the midblastula transition (MBT) of early development. Cell divisions 2-12 consist of rapid cleavages without gap phases or cell cycle checkpoints. Some remodeling events depend upon a critical nucleo-cytoplasmic ratio, whereas others rely on a maternal timer controlled by cyclin E/ Cdk2 activity. One key event that occurs at the MBT is the degradation of maternal Wee1, a negative regulator of cyclin-dependent kinase (Cdk) activity.

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Brian N. Wroble

Chk2/Cds1 protein kinase blocks apoptosis during early development of Xenopus laevis

Mitochondrial Apoptosis-Induced Channel (MAC) Function Triggers a Bax/Bak-Dependent Bystander Effect

Altered Expression of Chk1 Disrupts Cell Cycle Remodeling at the Midblastula Transition inXenopus laevisEmbryos

Cyclin A1/Cdk2 is Sufficient but not Required for the Induction of Apoptosis in Early Xenopus laevis Embryos

Wee1 kinase alters cyclin E/Cdk2 and promotes apoptosis during the early embryonic development of Xenopus laevis

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