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Review
. 2018 May 25;10(6):162.
doi: 10.3390/cancers10060162.

p53-Dependent and -Independent Epithelial Integrity: Beyond miRNAs and Metabolic Fluctuations

Tsukasa Oikawa  1 Yutaro Otsuka  2 Hisataka Sabe  3
Affiliations
Review

p53-Dependent and -Independent Epithelial Integrity: Beyond miRNAs and Metabolic Fluctuations

Tsukasa Oikawa et al. Cancers (Basel). .

Abstract

In addition to its classical roles as a tumor suppressor, p53 has also been shown to act as a guardian of epithelial integrity by inducing the microRNAs that target transcriptional factors driving epithelial⁻mesenchymal transition. On the other hand, the ENCODE project demonstrated an enrichment of putative motifs for the binding of p53 in epithelial-specific enhancers, such as CDH1 (encoding E-cadherin) enhancers although its biological significance remained unknown. Recently, we identified two novel modes of epithelial integrity (i.e., maintenance of CDH1 expression): one involves the binding of p53 to a CDH1 enhancer region and the other does not. In the former, the binding of p53 is necessary to maintain permissive histone modifications around the CDH1 transcription start site, whereas in the latter, p53 does not bind to this region nor affect histone modifications. Furthermore, these mechanisms likely coexisted within the same tissue. Thus, the mechanisms involved in epithelial integrity appear to be much more complex than previously thought. In this review, we describe our findings, which may instigate further experimental scrutiny towards understanding the whole picture of epithelial integrity as well as the related complex asymmetrical functions of p53. Such understanding will be important not only for cancer biology but also for the safety of regenerative medicine.

Keywords: EMT; epithelial integrity; histone modification; miRNAs; p53.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

Figure 1
Figure 1
Illustration of the two novel modes of epithelial integrity, which do or do not involve the binding of p53 to the CDH1 locus. It is important to note that EMT can be induced even in some EMT-resistant cells, such as MCF7 cells in an inflammatory milieu [52].
See this image and copyright information in PMC

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