p63 and Brg1 control developmentally regulated higher-order chromatin remodelling at the epidermal differentiation complex locus in epidermal progenitor cells

Mardaryev, Andrei N.; Gdula, Michal R.; Yarker, Joanne L.; Emelianov, Vladimir N.; Poterlowicz, Krzysztof; Sharov, Andrey A.; Sharova, Tatyana; Scarpa, Julie A.; Chambon, Pierre; Botchkarev, Vladimir A.; Fessing, Michael Y.

doi:10.1242/dev.103200

Cited by 90 publications

(83 citation statements)

References 82 publications

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“…In addition, histone de-acetylation correlates with decreased cell spreading, reduced nuclear size and terminal differentiation on micro-patterned substrates (Connelly et al, 2011). During terminal differentiation in the mouse epidermis, increased clusters of heterochromatin accompany decreased nuclear volume (Gdula et al, 2013), and regulators of nuclear architecture and chromatin remodelling, such as Ezh2, Satb1 and Brg1, are required for positioning and expression of genes within the epidermal differentiation complex (EDC) (Botchkarev et al, 2012;Ezhkova et al, 2009;Fessing et al, 2011;Mardaryev et al, 2014). Thus, decreased nuclear volume on small micro-patterns might facilitate terminal differentiation by physically forcing chromatin condensation.…”

Section: Discussionmentioning

confidence: 99%

The cytolinker plectin regulates nuclear mechanotransduction in keratinocytes

Almeida

Walko

McMillan

et al. 2015

Journal of Cell Science

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The transmission of mechanical forces to the nucleus is important for intracellular positioning, mitosis and cell motility, yet the contribution of specific components of the cytoskeleton to nuclear mechanotransduction remains unclear. In this study, we examine how crosstalk between the cytolinker plectin and F-actin controls keratin network organisation and the 3D nuclear morphology of keratinocytes. Using micro-patterned surfaces to precisely manipulate cell shape, we find that cell adhesion and spreading regulate the size and shape of the nucleus. Disruption of the keratin cytoskeleton through loss of plectin facilitated greater nuclear deformation, which depended on actomyosin contractility. Nuclear morphology did not depend on direct linkage of the keratin cytoskeleton with the nuclear membrane, rather loss of plectin reduced keratin filament density around the nucleus. We further demonstrate that keratinocytes have abnormal nuclear morphologies in the epidermis of plectin-deficient, epidermolysis bullosa simplex patients. Taken together, our data demonstrate that plectin is an essential regulator of nuclear morphology in vitro and in vivo and protects the nucleus from mechanical deformation.

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Section: Discussionmentioning

confidence: 99%

The cytolinker plectin regulates nuclear mechanotransduction in keratinocytes

Almeida

Walko

McMillan

et al. 2015

Journal of Cell Science

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“…For instance, p63 directly regulates expression of several genes encoding the genome organizer and AT-rich-binding protein Satb1, as well as ATP-dependent chromatin remodelers Lsh and Brg1 in epidermal keratinocytes (Fessing et al 2011;Keyes et al 2011;Mardaryev et al 2014). Both Brg1 and Satb1 play important roles in mediating a p63-regulated program of higherorder chromatin remodeling within the epidermal differentiation complex (EDC) locus.…”

Section: Va Botchkarev and Er Floresmentioning

confidence: 99%

“…Brg1 regulates relocation of the EDC away from the nuclear periphery into the nuclear interior and propinquity with nuclear speckles. This is followed by Satb1-regulated arrangement of chromatin conformation within the central domain of the locus, which contains a large number of genes activated during terminal keratinocyte differentiation (Fessing et al 2011;Mardaryev et al 2014). In turn, Lsh regulates chromatin remodeling and mediates DNp63-dependent proliferation and survival of Keratin 15-positive stem cells in the skin (Keyes et al 2011).…”

Section: Va Botchkarev and Er Floresmentioning

confidence: 99%

p53/p63/p73 in the Epidermis in Health and Disease

Botchkarev

Flores

2014

Cold Spring Harbor Perspectives in Medicine

101

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Although p53 has long been known as the "guardian of the genome" with a role in tumor suppression in many tissues, the discovery of two p53 ancestral genes, p63 and p73, more than a decade ago has triggered a considerable amount of research into the role of these genes in skin development and diseases. In this review, we primarily focus on mechanisms of action of p53 and p63, which are the best-studied p53 family members in the skin. The existence of multiple isoforms and their roles as transcriptional activators and repressors are key to their function in multiple biological processes including the control of skin morphogenesis, regeneration, tumorigenesis, and response to chemotherapy. Last, we provide directions for further research on this family of genes in skin biology and pathology.

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“…53 In developing epidermis, Brg1 serves as direct target for p63 transcription factor and regulates relocation of the epidermal differentiation complex (EDC) locus toward nuclear interior associated with marked increase of gene expression within the locus. 54 Higher-order chromatin remodeling and 3D genome organization Higher-order chromatin structure refers to the chromatin folding beyond ''beads on the string'' repeat. The position of chromosomes and subchromosomal regions is nonrandom within the interphase nucleus.…”

Section: Covalent Histone Modificationsmentioning

confidence: 99%