Abstract
Epithelial–mesenchymal transition (also known as EMT) is a fundamental mechanism occurring during embryonic development and tissue differentiation, being also crucial for cancer progression. Actually, the EMT program contributes to the dissemination of cancer cells from solid tumors and to the formation of micro-metastasis that subsequently develop into clinically detectable metastases. Besides being a process that is defined by the progressive loss of epithelial cell characteristics and the acquisition of mesenchymal features, EMT has also been implicated in therapy resistance, immune escape, and maintenance of cancer stem cell properties, such as self-renewal capacity. However, the majority of the studies usually neglect the progressive alterations occurring during intermediate EMT states, which imply a range of phenotypic cellular heterogeneity that can potentially generate more metastable and plastic tumor cells. In fact, few studies have tried to identify these transitory states, partly due to the current lack of a detailed understanding of EMT, as well as of reliable readouts for its progression. Herein, a brief review of evidences is presented, showing that P-cadherin expression, which has been already identified as a breast cancer stem cell marker and invasive promoter, is probably able to identify an intermediate EMT state associated with a metastable phenotype. This hypothesis is based on our own work, as well as on the results described by others, which suggest the use of P-cadherin as a promising EMT marker, clearly functioning as an important clinical prognostic factor and putative therapeutic target in breast carcinogenesis.
Highlights
EMT: EPITHELIAL TO MESENCHYMAL TRANSITION Epithelial–mesenchymal transition (EMT) is a highly regulated transdifferentiation cellular program, by which static and polarized epithelial cells convert to an invasive and motile mesenchymal morphology
EMT STATES Epithelial–mesenchymal transition is a multistep program that involves a series of changes by which epithelial cells lose their epithelial characteristics and acquire properties that are typical of mesenchymal cells
Since it has been already proven that P-cadherin is able to interfere with epithelial cell–cell adhesion and to promote cancer cell invasion and metastasis [32], it is our belief that P-cadherin can be used as a new EMT marker, mainly to identify an intermediate and transient EMT state associated with a metastable phenotype
Summary
EMT: EPITHELIAL TO MESENCHYMAL TRANSITION Epithelial–mesenchymal transition (EMT) is a highly regulated transdifferentiation cellular program, by which static and polarized epithelial cells convert to an invasive and motile mesenchymal morphology. During the EMT process, there is the progressive loss of epithelial characteristics and the acquisition of mesenchymal features, which, in a cancer context, leads to the development of cells that are chemoresistant, able to escape to immune cells and with stem cell properties. CLASSICAL EMT MARKERS The conversion of epithelial-like cells into mesenchymal-like cells requires alterations in cellular morphology, adhesion, and migratory capacity.
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