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Cells
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Advances in Epithelial-Mesenchymal Transition (EMT)
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Advances in Epithelial-Mesenchymal Transition (EMT)

A topical collection in Cells (ISSN 2073-4409). This collection belongs to the section "Stem Cells".

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Editors

Prof. Dr. Oriana Trubiani

E-Mail Website
Collection Editor
Department of Innovative Technologies in Medicine & Dentistry, University “G. d’Annunzio”, Chieti-Pescara, via dei Vestini, 31, 66100 Chieti, Italy
Interests: stem cells; biomaterials; regenerative medicine
Special Issues, Collections and Topics in MDPI journals
Dr. Francesca Diomede

E-Mail Website
Collection Editor
Department of Innovative Technologies in Clinical Medicine & Dentistry, University “G. d’Annunzio” Chieti-Pescara, 66100 Chieti, Italy
Interests: regenerative medicine; stem cells; oral stem cells; biomaterials; extracellular vesicles; exosomes; epithelial–mesenchymal transition
Special Issues, Collections and Topics in MDPI journals
Dr. Jacopo Pizzicannella

E-Mail Website
Collection Editor
Department of Engeneering and Geology, University “G. d’Annunzio” Chieti-Pescara, 66100 Chieti, Italy
Interests: regenerative medicine; stem cells; biomaterials; extracellular vesicles; exosomes; cardiac regeneration; cardiomyocytes
Special Issues, Collections and Topics in MDPI journals
Dr. Guya Diletta Marconi

E-Mail Website
Collection Editor
Department of Innovative Technologies in Clinical Medicine & Dentistry, University “G. d’Annunzio” Chieti-Pescara, 66100 Chieti, Italy
Interests: regenerative medicine; stem cells; microfluidics; oral stem cells; restorative dentistry; osteoregeneration; biomaterials; epithelial–mesenchymal transition; extracellular vesicles; exosomes; liposomes
Special Issues, Collections and Topics in MDPI journals

Topical Collection Information

Dear Colleagues,

The epithelial–mesenchymal transition (EMT) is a process that leads to the transdifferentiation of epithelial cells into motile mesenchymal cells. This is an essential event in development, wound healing, and stem cell behaviour, and contributes pathologically to fibrosis and cancer progression.

The cell differentiation is regulated by several transcription factors and molecular mechanisms that still remain unknown. During EMT, cell–cell and cell–extracellular matrix interactions are remodelled, and a new transcriptional programme is activated to promote the modifications in cellular morphology and functions. We invite colleagues to contribute editorials, original research articles, or review papers with recent findings on the mechanisms and roles of EMT in normal and neoplastic tissues, during physiological and pathological processes.

Prof. Dr. Oriana Trubiani
Dr. Francesca Diomede
Dr. Jacopo Pizzicanella
Dr. Guya Marconi
Collection Editors

Manuscript Submission Information

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Keywords

  • epithelial–mesenchymal transition
  • fibrosis
  • wound healing
  • cancer
  • development
  • stem cell behaviour
  • transcriptional factor
  • cell differentiation

Published Papers (3 papers)

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2025

Jump to: 2022

26 pages, 6743 KB  
Article
Matrix-Guided Vascular-like Cord Formation by MRC-5 Lung Fibroblasts: Evidence of Structural and Transcriptional Plasticity
by Nikoleta F. Theodoroula, Alexandros Giannopoulos-Dimitriou, Aikaterini Saiti, Aliki Papadimitriou-Tsantarliotou, Androulla N. Miliotou, Giannis Vatsellas, Yiannis Sarigiannis, Eleftheria Galatou, Christos Petrou, Dimitrios G. Fatouros and Ioannis S. Vizirianakis
Cells 2025, 14(19), 1519; https://doi.org/10.3390/cells14191519 - 29 Sep 2025
Viewed by 815
Abstract
The role of mesenchymal-to-endothelial transition in the angiogenic response remains controversial. In this study, we investigated whether human fetal lung fibroblasts (MRC-5 cells) exhibit morphological plasticity in a biomimetic extracellular matrix environment. To this end, MRC-5 cells were first cultured on and within [...] Read more.
The role of mesenchymal-to-endothelial transition in the angiogenic response remains controversial. In this study, we investigated whether human fetal lung fibroblasts (MRC-5 cells) exhibit morphological plasticity in a biomimetic extracellular matrix environment. To this end, MRC-5 cells were first cultured on and within Matrigel hydrogel and then studied with tube formation assays, confocal/fluorescence microscopy, invasion assays, and transcriptomic profiling. In addition, quantitative assessment for cord formation and gene expression was conducted via qPCR and RNA sequencing. In this study, MRC-5 cells quickly self-organized into cord-like networks, resembling early stages of vascular patterning, and at higher densities, invaded the hydrogel and formed spheroid-like aggregates. Transcriptomic analysis revealed upregulation of genes related to nervous system development and synaptic signaling in Matrigel-grown MRC-5 cultures. Collectively, these findings suggest that MRC-5 fibroblasts display structural and transcriptional plasticity in 3D Matrigel cultures, forming vascular-like cords that are more likely to resemble early developmental morphologies or neuroectodermal-like transcriptional signatures than definitive endothelial structures. This work underscores the potential of fibroblasts as an alternative cell source for vascular tissue engineering and highlights a strategy to overcome current limitations in autologous endothelial cell availability for regenerative applications. Full article
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2022

Jump to: 2025

24 pages, 5845 KB  
Article
Deciphering the Antifibrotic Property of Metformin
by Axelle Septembre-Malaterre, Chailas Boina, Audrey Douanier and Philippe Gasque
Cells 2022, 11(24), 4090; https://doi.org/10.3390/cells11244090 - 16 Dec 2022
Cited by 6 | Viewed by 3206
Abstract
Fibrosis is a chronic progressive and incurable disease leading to organ dysfunction. It is characterized by the accumulation of extracellular matrix proteins produced by mesenchymal stem cells (MSCs) differentiating into myofibroblasts. Given the complexity of its pathophysiology, the search for effective treatments for [...] Read more.
Fibrosis is a chronic progressive and incurable disease leading to organ dysfunction. It is characterized by the accumulation of extracellular matrix proteins produced by mesenchymal stem cells (MSCs) differentiating into myofibroblasts. Given the complexity of its pathophysiology, the search for effective treatments for fibrosis is of paramount importance. Metformin, a structural dimethyl analog of the galegine guanide extracted from the “French Lilac” (Fabaceae Galega officinalis), is the most widely used antidiabetic drug, recently recognized for its antifibrotic effects through ill-characterized mechanisms. The in vitro model of TGF-β1-induced fibrosis in human primary pulmonary mesenchymal stem cells (HPMSCs), identified as CD248+ and CD90+ cells, was used to study the effects of metformin extracts. These effects were tested on the expression of canonical MSC differentiation markers, immune/inflammatory factors and antioxidative stress molecules using qRT-PCR (mRNA, miRNA), immunofluorescence and ELISA experiments. Interestingly, metformin is able to reduce/modulate the expression of different actors involved in fibrosis. Indeed, TGF-β1 effects were markedly attenuated by metformin, as evidenced by reduced expression of three collagen types and Acta2 mRNAs. Furthermore, metformin attenuated the effects of TGF-β1 on the expression of PDGF, VEGF, erythropoietin, calcitonin and profibrotic miRs, possibly by controlling the expression of several key TGF/Smad factors. The expression of four major fibrogenic MMPs was also reduced by metformin treatment. In addition, metformin controlled MSC differentiation into lipofibroblasts and osteoblasts and had the ability to restore redox balance via the Nox4/Nrf2, AMP and Pi3K pathways. Overall, these results show that metformin is a candidate molecule for antifibrotic effect and/or aiming to combat the development of chronic inflammatory diseases worldwide. Full article
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18 pages, 837 KB  
Review
Potential Therapeutic Role of Mesenchymal-Derived Stem Cells as an Alternative Therapy to Combat COVID-19 through Cytokines Storm
by Tarun Kumar Upadhyay, Rashmi Trivedi, Fahad Khan, Pratibha Pandey, Amit Baran Sharangi, Harsh Goel, Mohd Saeed, Moon Nyeo Park and Bonglee Kim
Cells 2022, 11(17), 2686; https://doi.org/10.3390/cells11172686 - 29 Aug 2022
Cited by 3 | Viewed by 3160
Abstract
Medical health systems continue to be challenged due to newly emerging COVID-19, and there is an urgent need for alternative approaches for treatment. An increasing number of clinical observations indicate cytokine storms to be associated with COVID-19 severity and also to be a [...] Read more.
Medical health systems continue to be challenged due to newly emerging COVID-19, and there is an urgent need for alternative approaches for treatment. An increasing number of clinical observations indicate cytokine storms to be associated with COVID-19 severity and also to be a significant cause of death among COVID-19 patients. Cytokine storm involves the extensive proliferative and hyperactive activity of T and macrophage cells and the overproduction of pro-inflammatory cytokines. Stem cells are the type of cell having self-renewal properties and giving rise to differentiated cells. Currently, stem cell therapy is an exciting and promising therapeutic approach that can treat several diseases that were considered incurable in the past. It may be possible to develop novel methods to treat various diseases by identifying stem cells’ growth and differentiation factors. Treatment with mesenchymal stem cells (MSCs) in medicine is anticipated to be highly effective. The present review article is organized to put forward the positive arguments and implications in support of mesenchymal stem cell therapy as an alternative therapy to cytokine storms, to combat COVID-19. Using the immunomodulatory potential of the MSCs, it is possible to fight against COVID-19 and counterbalance the cytokine storm. Full article
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