Abstract
Although p63 and MYC are important in the control of epidermal homeostasis, the underlying molecular mechanisms governing keratinocyte proliferation or differentiation downstream of these two genes are not completely understood. By analyzing the transcriptional changes and phenotypic consequences of the loss of either p63 or MYC in human developmentally mature keratinocytes, we have characterized the networks acting downstream of these two genes to control epidermal homeostasis. We show that p63 is required to maintain growth and to commit to differentiation by two distinct mechanisms. Knockdown of p63 led to down-regulation of MYC via the Wnt/β-catenin and Notch signaling pathways and in turn reduced keratinocyte proliferation. We demonstrate that a p63-controlled keratinocyte cell fate network is essential to induce the onset of keratinocyte differentiation. This network contains several secreted proteins involved in cell migration/adhesion, including fibronectin 1 (FN1), interleukin-1β (IL1B), cysteine-rich protein 61 (CYR61), and jagged-1 (JAG1), that act downstream of p63 as key effectors to trigger differentiation. Our results characterized for the first time a connection between p63 and MYC and a cell adhesion-related network that controls differentiation. Furthermore, we show that the balance between the MYC-controlled cell cycle progression network and the p63-controlled cell adhesion-related network could dictate skin cell fate.
Highlights
The role of p63 in skin development is well known, its action in regulating human adult epidermal homeostasis is not completely elucidated
As we focused on the commitment to differentiation, we chose to monitor the expression of two early differentiation markers, keratin 1 (K1) and keratin 10 (K10), rather than later ones, such as involucrin or filagrin
We observed that loss of p63 in cultures of primary human keratinocytes inhibited expression of both K1 and K10 compared with control or MYCdepleted cells (Fig. 1H)
Summary
The role of p63 in skin development is well known, its action in regulating human adult epidermal homeostasis is not completely elucidated. P63 and MYC are important in the control of epidermal homeostasis, the underlying molecular mechanisms governing keratinocyte proliferation or differentiation downstream of these two genes are not completely understood. By analyzing the transcriptional changes and phenotypic consequences of the loss of either p63 or MYC in human developmentally mature keratinocytes, we have characterized the networks acting downstream of these two genes to control epidermal homeostasis. Little is known about key genes acting downstream of p63 to regulate the dynamic equilibrium of keratinocytes differentiation and proliferation as well as epidermal homeostasis [11]. We hypothesized that the regulation of the equilibrium between proliferation and differentiation of keratinocytes could rely on gene networks acting downstream of p63 and MYC rather than on a single gene To this end, we compared phenotypic outcomes and global gene expression profiles in differentiating human keratinocytes transiently depleted of either p63 or MYC. P63 regulates human keratinocyte differentiation by controlling a network of genes implicated in cell migration and adhesion
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