A Mitosis Block Links Active Cell Cycle with Human Epidermal Differentiation and Results in Endoreplication

Zanet, Jennifer; Freije, Ana; Ruíz, M. A.; Coulon, Vincent; Sanz, Juan Ramón; Chiésa, Jean; Gandarillas, Alberto

doi:10.1371/journal.pone.0015701

Cited by 92 publications

(139 citation statements)

References 71 publications

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“…11 Mitosis kinases Aurora B or Polo-like kinase 1 (Plk1), which are involved in chromosome segregation, participate in the mitotic spindle checkpoint 32,33 and some of their inhibitors are being tested in cancer clinical trials. 34 To explore whether the keratinocyte mitotic checkpoints are involved in the signal to differentiation, we inhibited these molecules by specific chemical inhibitors.…”

Section: Mitosis Block and Differentiationmentioning

confidence: 99%

“…We have previously shown that postmitotic keratinocytes continue DNA synthesis and become polyploid during differentiation in vitro 9 and in vivo, 10,11 and that the process of endoreplication is stimulated by MYC. As for MYC, other molecules involved in cell cycle progression caused epidermal hyperplasia, but were not able to disrupt differentiation (for example, E2F, Cyclin D1, MDM2, cdk2, cdk4; references in Zanet et al 11 ).…”

Section: Introductionmentioning

confidence: 99%

“…As for MYC, other molecules involved in cell cycle progression caused epidermal hyperplasia, but were not able to disrupt differentiation (for example, E2F, Cyclin D1, MDM2, cdk2, cdk4; references in Zanet et al 11 ). Cyclin-dependent kinases cdk2 and cdk1 are key regulators of S-phase and mitosis, respectively.…”

Section: Introductionmentioning

confidence: 99%

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Cyclin E drives human keratinocyte growth into differentiation

et al. 2012

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Human epidermis is continuously exposed to environmental mutagenic hazard and is the most frequent target of human cancer. How the epidermis coordinates proliferation with differentiation to maintain homeostasis, even in hyperproliferative conditions, is unclear. For instance, overactivation of the proto-oncogene MYC in keratinocytes stimulates differentiation. Here we explore the cell cycle regulation as proliferating human keratinocytes commit to terminal differentiation upon loss of anchorage or overactivation of MYC. The S-phase of the cell cycle is deregulated as mitotic regulators are inhibited in the onset of differentiation. Experimental inhibition of mitotic kinase cdk1 or kinases of the mitosis spindle checkpoint Aurora B or Pololike Kinase, triggered keratinocyte terminal differentiation. Furthermore, hyperactivation of the cell cycle by overexpressing the DNA replication regulator Cyclin E induced mitosis failure and differentiation. Inhibition of Cyclin E by shRNAs attenuated the induction of differentiation by MYC. In addition, we present evidence that Cyclin E induces DNA damage and the p53 pathway. The results provide novel clues for the mechanisms committing proliferative keratinocytes to differentiate, with implications for tissue homeostasis maintenance, HPV amplification and tumorigenesis.

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Section: Mitosis Block and Differentiationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Cyclin E drives human keratinocyte growth into differentiation

et al. 2012

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“…This might help explain why, following exit from mitotic SAC arrest, some cell types undergo cell death, while others can continue to cycle or potentially differentiate into nondividing polyploid cells. [2][3][4]9 In the case of A. nidulans, which normally maintains multiple nuclei within a syncytium, the failed mitosis which occurs during SIME is tolerated. This is because the genome of syncytial cells normally doubles each cell cycle and this still occurs when mitosis fails and cells undergo SIME.…”

mentioning

confidence: 99%

A new level of spindle assembly checkpoint inactivation that functions without mitotic spindles

Souza¹,

Osmani²

2011

Cell Cycle

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“…Somatic polyploidy has several advantages for the affected cells including a better response to metabolic and/or genotoxic stress and a lower sensibility to apoptotic stimuli. 10,11,20,21 In mammals and higher vertebrates different cell types have been shown to be polyploid, including trophoblast giant cells, 10,11,,22 hepatocytes, 23,24 megakaryocytes, 25 keratinocytes, 26 and vascular smooth cells. 27 Endoreplication represents a major mechanism leading to developmental programmed somatic polyploidy.…”

Section: Introductionmentioning

confidence: 99%

p27^Kip1participates in the regulation of endoreplication in differentiating chick retinal ganglion cells

Ovejero‐Benito

Frade

2015

Cell Cycle

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Nuclear DNA duplication in the absence of cell division (i.e. endoreplication) leads to somatic polyploidy in eukaryotic cells. In contrast to some invertebrate neurons, whose nuclei may contain up to 200,000-fold the normal haploid DNA amount (C), polyploid neurons in higher vertebrates show only 4C DNA content. To explore the mechanism that prevents extra rounds of DNA synthesis in these latter cells we focused on the chick retina, where a population of tetraploid retinal ganglion cells (RGCs) has been described. We show that differentiating chick RGCs that express the neurotrophic receptors p75 and TrkB while lacking retinoblastoma protein, a feature of tetraploid RGCs, also express p27 Kip1 . Two different short hairpin RNAs (shRNA) that significantly downregulate p27 Kip1 expression facilitated DNA synthesis and increased ploidy in isolated chick RGCs. Moreover, this forced DNA synthesis could not be prevented by Cdk4/6 inhibition, thus suggesting that it is triggered by a mechanism similar to endoreplication. In contrast, p27 Kip1 deficiency in mouse RGCs does not lead to increased ploidy despite previous observations have shown ectopic DNA synthesis in RGCs from p27 Kip1¡/¡ mice. This suggests that a differential mechanism is used for the regulation of neuronal endoreplication in mammalian versus avian RGCs.

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A Mitosis Block Links Active Cell Cycle with Human Epidermal Differentiation and Results in Endoreplication

Cited by 92 publications

References 71 publications

Cyclin E drives human keratinocyte growth into differentiation

Cyclin E drives human keratinocyte growth into differentiation

A new level of spindle assembly checkpoint inactivation that functions without mitotic spindles

p27^Kip1participates in the regulation of endoreplication in differentiating chick retinal ganglion cells

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A Mitosis Block Links Active Cell Cycle with Human Epidermal Differentiation and Results in Endoreplication

Cited by 92 publications

References 71 publications

Cyclin E drives human keratinocyte growth into differentiation

Cyclin E drives human keratinocyte growth into differentiation

A new level of spindle assembly checkpoint inactivation that functions without mitotic spindles

p27Kip1participates in the regulation of endoreplication in differentiating chick retinal ganglion cells

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p27^Kip1participates in the regulation of endoreplication in differentiating chick retinal ganglion cells