Anissa Chikh scite author profile

Epidermal keratinocytes migrate through the epidermis up to the granular layer where, on terminal differentiation, they progressively lose organelles and convert into anucleate cells or corneocytes. Our report explores the role of autophagy in ensuring epidermal function providing the first comprehensive profile of autophagy marker expression in developing epidermis. We show that autophagy is constitutively active in the epidermal granular layer where by electron microscopy we identified double-membrane autophagosomes. We demonstrate that differentiating keratinocytes undergo a selective form of nucleophagy characterized by accumulation of microtubule-associated protein light chain 3/lysosomal-associated membrane protein 2/p62 positive autolysosomes. These perinuclear vesicles displayed positivity for histone interacting protein, heterochromatin protein 1α, and localize in proximity with Lamin A and B1 accumulation, whereas in newborn mice and adult human skin, we report LC3 puncta coincident with misshaped nuclei within the granular layer. This process relies on autophagy integrity as confirmed by lack of nucleophagy in differentiating keratinocytes depleted from WD repeat domain phosphoinositide interacting 1 or Unc-51 like autophagy activating kinase 1. Final validation into a skin disease model showed that impaired autophagy contributes to the pathogenesis of psoriasis. Lack of LC3 expression in psoriatic skin lesions correlates with parakeratosis and deregulated expression or location of most of the autophagic markers. Our findings may have implications and improve treatment options for patients with epidermal barrier defects.

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Imatinib inhibits VEGF-independent angiogenesis by targeting neuropilin 1–dependent ABL1 activation in endothelial cells

Raimondi

et al. 2014

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p63 is upstream of IKKα in epidermal development

et al. 2006

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The epidermis, the outer layer of the skin composed of keratinocytes, develops following the action of the transcription factor p63. The mouse Trp63 gene contains two promoters, driving the production of distinct proteins, one with an N-terminal trans-activation domain (TAp63) and one without (ΔNp63), although their relative contribution to epidermal development is not clearly established. To identify the relative role of p63 isoforms in relation to IKKα, also known to be essential for epithelial development, we performed both molecular and in vivo analyses using genetic complementation in mice. We found that the action of TAp63 is mediated at the molecular level by direct and indirect transactivation of IKKα and Ets-1, respectively. We also found that ΔNp63 upregulates IKKα indirectly, through GATA-3. Our data are consistent with a role for p63 directly upstream of IKKα in epithelial development.

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Anissa Chikh

Constitutive Autophagy and Nucleophagy during Epidermal Differentiation

Imatinib inhibits VEGF-independent angiogenesis by targeting neuropilin 1–dependent ABL1 activation in endothelial cells

p63 is upstream of IKKα in epidermal development

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