Burcu Sengez scite author profile

The epithelial to mesenchymal transition (EMT) and the mesenchymal to epithelial transition (MET) are two critical biological processes that are involved in both physiological events such as embryogenesis and development and also pathological events such as tumorigenesis. They present with dramatic changes in cellular morphology and gene expression exhibiting acute changes in E-cadherin expression. Despite the comprehensive understanding of EMT, the regulation of MET is far from being understood. To find novel regulators of MET, we hypothesized that such factors would correlate with Cdh1 expression. Bioinformatics examination of several expression profiles suggested Elf3 as a strong candidate. Depletion of Elf3 at the onset of MET severely impaired the progression to the epithelial state. This MET defect was explained, in part, by the absence of E-cadherin at the plasma membrane. Moreover, during MET, ELF3 interacts with the Grhl3 promoter and activates its expression. Our findings present novel insights into the regulation of MET and reveal ELF3 as an indispensable guardian of the epithelial state. A better understanding of MET will, eventually, lead to better management of metastatic cancers.

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EMT and Inflammation: Crossroads in HCC

Sengez

Carr

Alotaibi

2022

J Gastrointest Canc

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The Role of Histone Variants in the Epithelial-To-Mesenchymal Transition

Lone

Sengez

Hamiche

et al. 2020

Cells

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The epithelial-to-mesenchymal transition (EMT) is a physiological process activated during early embryogenesis, which continues to shape tissues and organs later on. It is also hijacked by tumor cells during metastasis. The regulation of EMT has been the focus of many research groups culminating in the last few years and resulting in an elaborate transcriptional network buildup. However, the implication of epigenetic factors in the control of EMT is still in its infancy. Recent discoveries pointed out that histone variants, which are key epigenetic players, appear to be involved in EMT control. This review summarizes the available data on histone variants’ function in EMT that would contribute to a better understanding of EMT itself and EMT-related diseases.

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Burcu Sengez

The Transcription Factor Elf3 Is Essential for a Successful Mesenchymal to Epithelial Transition

EMT and Inflammation: Crossroads in HCC

The Role of Histone Variants in the Epithelial-To-Mesenchymal Transition

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