scholarly journals p21Waf1/Cip1 Inhibition of Cyclin E/Cdk2 Activity Prevents Endoreduplication after Mitotic Spindle Disruption

1999 ◽  
Vol 19 (1) ◽  
pp. 205-215 ◽  
Author(s):  
Zoe A. Stewart ◽  
Steven D. Leach ◽  
Jennifer A. Pietenpol
Keyword(s):  
Cyclin E ◽  
Ectopic Expression ◽  
Cyclin B1 ◽  
S Phase ◽  
Nuclear Antigen ◽  
Microtubule Inhibitors ◽  
Cdk2 Activity ◽  
Integral Role ◽  
Subsequent Activation ◽  
Proliferating Cell

ABSTRACT During a normal cell cycle, entry into S phase is dependent on completion of mitosis and subsequent activation of cyclin-dependent kinases (Cdks) in G1. These events are monitored by checkpoint pathways. Recent studies and data presented herein show that after treatment with microtubule inhibitors (MTIs), cells deficient in the Cdk inhibitor p21Waf1/Cip1 enter S phase with a ≥4N DNA content, a process known as endoreduplication, which results in polyploidy. To determine how p21 prevents MTI-induced endoreduplication, the G1/S and G2/M checkpoint pathways were examined in two isogenic cell systems: HCT116 p21+/+ and p21−/− cells and H1299 cells containing an inducible p21 expression vector (HIp21). Both HCT116 p21−/− cells and noninduced HIp21 cells endoreduplicated after MTI treatment. Analysis of G1-phase Cdk activities demonstrated that the induction of p21 inhibited endoreduplication through direct cyclin E/Cdk2 regulation. The kinetics of p21 inhibition of cyclin E/Cdk2 activity and binding to proliferating-cell nuclear antigen in HCT116 p21+/+ cells paralleled the onset of endoreduplication in HCT116 p21−/− cells. In contrast, loss of p21 did not lead to deregulated cyclin D1-dependent kinase activities, nor did p21 directly regulate cyclin B1/Cdc2 activity. Furthermore, we show that MTI-induced endoreduplication in p53-deficient HIp21 cells was due to levels of p21 protein below a threshold required for negative regulation of cyclin E/Cdk2, since ectopic expression of p21 restored cyclin E/Cdk2 regulation and prevented endoreduplication. Based on these findings, we propose that p21 plays an integral role in the checkpoint pathways that restrain normal cells from entering S phase after aberrant mitotic exit due to defects in microtubule dynamics.

scholarly journals Repression of the Drosophila proliferating-cell nuclear antigen gene promoter by zerknüllt protein

1991 ◽  
Vol 11 (10) ◽  
pp. 4909-4917
Author(s):  
M Yamaguchi ◽  
F Hirose ◽  
Y Nishida ◽  
A Matsukage
Keyword(s):  
Proliferating Cell Nuclear Antigen ◽  
Regulatory Region ◽  
Ectopic Expression ◽  
Gene Promoter ◽  
Nuclear Antigen ◽  
Target Sequence ◽  
Transient Expression Assay ◽  
Rnase Protection ◽  
Proliferating Cell ◽  
Cat Expression

A 631-bp fragment containing the 5'-flanking region of the Drosophila melanogaster proliferating-cell nuclear antigen (PCNA) gene was placed upstream of the chloramphenicol acetyltransferase (CAT) gene of a CAT vector. A transient expression assay of CAT activity in Drosophila Kc cells transfected with this plasmid and a set of 5'-deletion derivatives revealed that the promoter function resided within a 192-bp region (-168 to +24 with respect to the transcription initiation site). Cotransfection with a zerknüllt (zen)-expressing plasmid specifically repressed CAT expression. However, cotransfection with expression plasmids for a nonfunctional zen mutation, even-skipped, or bicoid showed no significant effect on CAT expression. RNase protection analysis revealed that the repression by zen was at the transcription step. The target sequence of zen was mapped within the 34-bp region (-119 to -86) of the PCNA gene promoter, even though it lacked zen protein-binding sites. Transgenic flies carrying the PCNA gene regulatory region (-607 to +137 or -168 to +137) fused with lacZ were established. When these flies were crossed with the zen mutant, ectopic expression of lacZ was observed in the dorsal region of gastrulating embryos carrying the transgene with either construct. These results indicate that zen indirectly represses PCNA gene expression, probably by regulating the expression of some transcription factor(s) that binds to the PCNA gene promoter.

scholarly journals The spindle checkpoint, APC/CCdc20, and APC/CCdh1 play distinct roles in connecting mitosis to S phase

2013 ◽  
Vol 201 (7) ◽  
pp. 1013-1026 ◽  
Author(s):  
Linda Clijsters ◽  
Janneke Ogink ◽  
Rob Wolthuis
Keyword(s):  
Spindle Checkpoint ◽  
Cyclin B1 ◽  
S Phase ◽  
Animal Cells ◽  
Proliferating Cells ◽  
Cell Cycle Entry ◽  
Sister Chromatids ◽  
Mitotic Cyclin ◽  
Bona Fide ◽  
Subsequent Activation

DNA replication depends on a preceding licensing event by Cdt1 and Cdc6. In animal cells, relicensing after S phase but before mitosis is prevented by the Cdt1 inhibitor geminin and mitotic cyclin activity. Here, we show that geminin, like cyclin B1 and securin, is a bona fide target of the spindle checkpoint and APC/CCdc20. Cyclin B1 and geminin are degraded simultaneously during metaphase, which directs Cdt1 accumulation on segregating sister chromatids. Subsequent activation of APC/CCdh1 leads to degradation of Cdc6 well before Cdt1 becomes unstable in a replication-coupled manner. In mitosis, the spindle checkpoint supports Cdt1 accumulation, which promotes S phase onset. We conclude that the spindle checkpoint, APC/CCdc20, and APC/CCdh1 act successively to ensure that the disappearance of licensing inhibitors coincides exactly with a peak of Cdt1 and Cdc6. Whereas cell cycle entry from quiescence requires Cdc6 resynthesis, our results indicate that proliferating cells use a window of time in mitosis, before Cdc6 is degraded, as an earlier opportunity to direct S phase.

Replication factories and nuclear bodies: the ultrastructural characterization of replication sites during the cell cycle

1994 ◽  
Vol 107 (8) ◽  
pp. 2191-2202 ◽  
Author(s):  
P. Hozak ◽  
D.A. Jackson ◽  
P.R. Cook
Keyword(s):  
Electron Microscopy ◽  
Light And Electron Microscopy ◽  
S Phase ◽  
Nuclear Bodies ◽  
Nuclear Antigen ◽  
Thin Sections ◽  
Permeabilized Cells ◽  
Ultrastructural Characterization ◽  
Replication Sites ◽  
Proliferating Cell

Sites of replication in synchronized HeLa cells were visualized by light and electron microscopy; cells were permeabilized and incubated with biotin-16-dUTP, and incorporation sites were immunolabelled. Electron microscopy of thick resinless sections from which approximately 90% chromatin had been removed showed that most DNA synthesis occurs in specific dense structures (replication factories) attached to a diffuse nucleoskeleton. These factories appear at the end of G1-phase and quickly become active; as S-phase progresses, they increase in size and decrease in number like sites of incorporation seen by light microscopy. Electron microscopy of conventional thin sections proved that these factories are a subset of nuclear bodies; they changed in the same characteristic way and contained DNA polymerase alpha and proliferating cell nuclear antigen. As replication factories can be observed and labelled in non-permeabilized cells, they cannot be aggregation artifacts. Some replication occurs outside factories at discrete sites on the diffuse skeleton; it becomes significant by mid S-phase and later becomes concentrated beneath the lamina.

Identification of the functional domain of p21WAF1/CIP1 that protects cells from cisplatin cytotoxicity

2005 ◽  
Vol 289 (3) ◽  
pp. F514-F520 ◽  
Author(s):  
Fang Yu ◽  
Judit Megyesi ◽  
Robert L. Safirstein ◽  
Peter M. Price
Keyword(s):  
Dominant Negative ◽  
Nuclear Antigen ◽  
Functional Domain ◽  
Binding Domains ◽  
Cdk2 Activity ◽  
Localization Signal ◽  
Induced Apoptosis ◽  
Proliferating Cell

The p21 cyclin-dependent kinase (cdk) inhibitor protects cells from cisplatin cytotoxicity in vivo and in vitro. However, the mechanism of protection is not known. Separate p21 domains are known to interact with several different proteins having proapoptotic functions. To investigate the mechanism of protection by p21, we have constructed adenoviruses encoding the different domains of p21. We were able to localize the protective activity to a region of 54 amino acids containing the cyclin-cdk interacting moiety. Other protein binding domains of p21, including the NH2-terminal procaspase-3 interactive region and the COOH-terminal region containing the proliferating cell nuclear antigen binding domain and the nuclear localization signal, had little protective effect on cisplatin cytotoxicity. The dependence of cisplatin cytotoxicity on cdk2 activity was also demonstrated because 1) cisplatin caused a marked increase in cdk2 activity, which was prevented by the p21 expression adenovirus, and 2) a cdk2 dominant-negative adenovirus also protected cells from cisplatin-induced apoptosis. Thus the data suggest that the mechanism of p21 protection is by direct inhibition of cdk2 activity and that cisplatin-induced apoptosis is caused by a cdk2-dependent pathway.

scholarly journals Effect of Proliferating Cell Nuclear Antigen Ubiquitination and Chromatin Structure on the Dynamic Properties of the Y-family DNA Polymerases

2008 ◽  
Vol 19 (12) ◽  
pp. 5193-5202 ◽  
Author(s):  
Simone Sabbioneda ◽  
Audrey M. Gourdin ◽  
Catherine M. Green ◽  
Angelika Zotter ◽  
Giuseppina Giglia-Mari ◽  
...  
Keyword(s):  
Chromatin Structure ◽  
Proliferating Cell Nuclear Antigen ◽  
Dynamic Properties ◽  
Human Fibroblasts ◽  
Dna Polymerases ◽  
S Phase ◽  
Nuclear Antigen ◽  
Replication Foci ◽  
Y Family ◽  
Proliferating Cell

Y-family DNA polymerases carry out translesion synthesis past damaged DNA. DNA polymerases (pol) η and ι are usually uniformly distributed through the nucleus but accumulate in replication foci during S phase. DNA-damaging treatments result in an increase in S phase cells containing polymerase foci. Using photobleaching techniques, we show that polη is highly mobile in human fibroblasts. Even when localized in replication foci, it is only transiently immobilized. Although ubiquitination of proliferating cell nuclear antigen (PCNA) is not required for the localization of polη in foci, it results in an increased residence time in foci. polι is even more mobile than polη, both when uniformly distributed and when localized in foci. Kinetic modeling suggests that both polη and polι diffuse through the cell but that they are transiently immobilized for ∼150 ms, with a larger proportion of polη than polι immobilized at any time. Treatment of cells with DRAQ5, which results in temporary opening of the chromatin structure, causes a dramatic immobilization of polη but not polι. Our data are consistent with a model in which the polymerases are transiently probing the DNA/chromatin. When DNA is exposed at replication forks, the polymerase residence times increase, and this is further facilitated by the ubiquitination of PCNA.

scholarly journals Noncatalytic Requirement for Cyclin A-cdk2 in p27 Turnover

2004 ◽  
Vol 24 (13) ◽  
pp. 6058-6066 ◽  
Author(s):  
Xin-Hua Zhu ◽  
Hoang Nguyen ◽  
H. Dorota Halicka ◽  
Frank Traganos ◽  
Andrew Koff
Keyword(s):  
Ubiquitin Ligase ◽  
Cyclin E ◽  
Flow Cytometric Analysis ◽  
E3 Ubiquitin Ligase ◽  
Cyclin A ◽  
Cyclin B1 ◽  
S Phase ◽  
Cyclin Dependent Kinase ◽  
Flow Cytometric

ABSTRACT Ubiquitin-dependent proteolysis makes a major contribution to decreasing the levels of p27. Ubiquitin-dependent proteolysis of p27kip1 is growth and cell cycle regulated in two ways: first, skp2, a component of the E3-ubiquitin ligase, is growth regulated, and second, a kinase must phosphorylate the threonine-187 position on p27 so that it can be recognized by skp2. In vitro, p27 is phosphorylated by cyclin E- and cyclin A-associated cdk2 as well as by cyclin B1-cdk1. Having analyzed the effect of different cyclin-cyclin-dependent kinase complexes on ubiquitination of p27 in a reconstitution assay system, we now report a noncatalytic requirement for cyclin A-cdk2. Multiparameter flow cytometric analysis also indicates that p27 turnover correlates best with the onset of S phase, once the levels of cyclin A become nearly maximal. Finally, increasing the amount of both cyclin E-cdk2 and skp2 was less efficient at promoting p27 ubiquitination than was increasing the amount of cyclin A-cdk2 alone in extracts prepared from cultures of >93%-purified G1 cells. Together these lines of evidence suggest that cyclin A-cdk2 plays an ancillary noncatalytic role in the ubiquitination of p27 by the SCFskp2 complex.

scholarly journals Repression of the Drosophila proliferating-cell nuclear antigen gene promoter by zerknüllt protein.

1991 ◽  
Vol 11 (10) ◽  
pp. 4909-4917 ◽  
Author(s):  
M Yamaguchi ◽  
F Hirose ◽  
Y Nishida ◽  
A Matsukage
Keyword(s):  
Proliferating Cell Nuclear Antigen ◽  
Regulatory Region ◽  
Ectopic Expression ◽  
Gene Promoter ◽  
Nuclear Antigen ◽  
Target Sequence ◽  
Transient Expression Assay ◽  
Rnase Protection ◽  
Proliferating Cell ◽  
Cat Expression

A 631-bp fragment containing the 5'-flanking region of the Drosophila melanogaster proliferating-cell nuclear antigen (PCNA) gene was placed upstream of the chloramphenicol acetyltransferase (CAT) gene of a CAT vector. A transient expression assay of CAT activity in Drosophila Kc cells transfected with this plasmid and a set of 5'-deletion derivatives revealed that the promoter function resided within a 192-bp region (-168 to +24 with respect to the transcription initiation site). Cotransfection with a zerknüllt (zen)-expressing plasmid specifically repressed CAT expression. However, cotransfection with expression plasmids for a nonfunctional zen mutation, even-skipped, or bicoid showed no significant effect on CAT expression. RNase protection analysis revealed that the repression by zen was at the transcription step. The target sequence of zen was mapped within the 34-bp region (-119 to -86) of the PCNA gene promoter, even though it lacked zen protein-binding sites. Transgenic flies carrying the PCNA gene regulatory region (-607 to +137 or -168 to +137) fused with lacZ were established. When these flies were crossed with the zen mutant, ectopic expression of lacZ was observed in the dorsal region of gastrulating embryos carrying the transgene with either construct. These results indicate that zen indirectly represses PCNA gene expression, probably by regulating the expression of some transcription factor(s) that binds to the PCNA gene promoter.

scholarly journals Ectopic Expression of Cdc25A Accelerates the G1/S Transition and Leads to Premature Activation of Cyclin E- and Cyclin A-Dependent Kinases

1999 ◽  
Vol 19 (9) ◽  
pp. 6183-6194 ◽  
Author(s):  
Ida Blomberg ◽  
Ingrid Hoffmann
Keyword(s):  
Phase Transition ◽  
Cyclin E ◽  
Ectopic Expression ◽  
Cyclin A ◽  
S Phase ◽  
Important Regulator ◽  
Cycle Regulation ◽  
Cdc25a Phosphatase ◽  
Rate Limiting

ABSTRACT Human Cdc25 phosphatases play important roles in cell cycle regulation by removing inhibitory phosphates from tyrosine and threonine residues of cyclin-dependent kinases. Three human Cdc25 isoforms, A, B, and C, have been discovered. Cdc25B and Cdc25C play crucial roles at the G2/M transition. In the present study, we have investigated the function of human Cdc25A phosphatase. Cell lines that express human Cdc25A in an inducible manner have been generated. Ectopic expression of Cdc25A accelerates the G1/S-phase transition, indicating that Cdc25A controls an event(s) that is rate limiting for entry into S phase. Furthermore, we carried out a detailed analysis of the expression and activation of human Cdc25A. Activation of endogenous Cdc25A occurs during late G1 phase and increases in S and G2 phases. We further demonstrate that Cdc25A is activated at the same time as cyclin E- and cyclin A-dependent kinases. In vitro, Cdc25A dephosphorylates and activates the cyclin-Cdk complexes that are active during G1. Overexpression of Cdc25A in the inducible system, however, leads to a premature activation of both cyclin E-Cdk2 and cyclin A-Cdk2 complexes, while no effect of cyclin D-dependent kinases is observed. Furthermore, Cdc25A overexpression induces a tyrosine dephosphorylation of Cdk2. These results suggest that Cdc25A is an important regulator of the G1/S-phase transition and that cyclin E- and cyclin A-dependent kinases act as direct targets.

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