Amira Seltana scite author profile

The proto-oncogene Src is an important protein tyrosine kinase involved in signaling pathways that control cell adhesion, growth, migration and survival. Here, we investigated the involvement of Src family kinases (SFKs) in human intestinal cell differentiation. We first observed that Src activity peaked in early stages of Caco-2/15 cell differentiation. Inhibition of SFKs with PP2, a selective SFK inhibitor, accelerated the overall differentiation program. Interestingly, all polarization and terminal differentiation markers tested, including sucrase-isomaltase, lactase-phlorizin hydrolase and E and Li-cadherins were found to be significantly up-regulated after only 3 days of treatment in the newly differentiating cells. Further investigation of the effects of PP2 revealed a significant up-regulation of the two main intestinal epithelial cell-specific transcription factors Cdx2 and HNF1α and a reduction of polycomb PRC2-related epigenetic repressing activity as measured by a decrease in H3K27me3, two events closely related to the control of cell terminal differentiation in the intestine. Taken together, these data suggest that SFKs play a key role in the control of intestinal epithelial cell terminal differentiation.

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Intestinal epithelial wound healing assay in an epithelialâmesenchymal co-culture system

Seltana

Basora

Beaulieu

2010

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Rapid and efficient healing of epithelial damage is critical to the functional integrity of the small intestine. Epithelial repair is a complex process that has largely been studied in cultured epithelium but to a much lesser extent in mucosa. We describe a novel method for the study of wound healing using a co-culture system that combined an intestinal epithelial Caco-2/15 cell monolayer cultured on top of human intestinal myofibroblasts, which together formed a basement membrane-like structure that contained many of the major components found at the epithelial-mesenchymal interface in the human intestine. To investigate the mechanism of restitution, small lesions were generated in epithelial cell monolayers on plastic or in co-cultures without disturbing the underlying mesenchymal layer. Monitoring of wound healing showed that repair was more efficient in Caco-2/15-myofibroblast co-cultures than in Caco-2/15 monolayers and involved the deposition of basement membrane components. Functional experiments showed that the addition of type I collagen or human fibronectin to the culture medium significantly accelerated wound closure on epithelial cell co-cultures. This system may provide a new tool to investigate the mechanisms that regulate wound healing in the intestinal epithelium.The functional integrity of the crypt-villus axis in the small intestine is ensured by constant renewal of the intestinal epithelium.1 In response to mucosal injury, healing must occur rapidly in the denuded area to restore epithelial continuity and maintain normal gut function. The healing process results from a coordinated action between the epithelial cells and the underlying support of contractile cells.2,3 Three major events necessary for the restoration of superficial injuries in the intestinal mucosa have been described: villus contraction, which reduces the surface area requiring repair, epithelial restitution, based on rapid migration of intact epithelial cells to cover the denuded area, and finally closure of the paracellular space by reassembly of the tight junctions. 2Epithelial restitution is independent of cell proliferation and is characterized by a sequential series of events that begins with the dedifferentiation of polarized columnar cells at the edge of the wound, which then flatten, spread, and migrate to reseal the open wound. 4,5 Once these cells have spanned the wound area, they ultimately repolarize. Various polarized intestinal epithelial cell lines have been widely exploited in wound healing assays as in vitro models that allow simple manipulation of the external environment and easy visualization. 4,6,7 Use of these models has successfully identified a variety of factors that can affect the ability and rate of intestinal epithelial cells to heal a wound. These factors include cytokines, growth factors, and extracellular matrix (ECM) components. [8][9][10][11][12] Epithelial cells bind to the latter by transmembrane integrin receptors, which serve as a bridge to the cytoskeleton.

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M1617 Intestinal Epithelial Wound Healing Assay in An Epithelial-Mesenchymal Co-Culture System

Seltana¹,

Basora²,

Beaulieu³

2009

Gastroenterology

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Fibrin(ogen) Is Constitutively Expressed by Differentiated Intestinal Epithelial Cells and Mediates Wound Healing

et al. 2022

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Fibrinogen is a large molecule synthesized in the liver and released in the blood. Circulating levels of fibrinogen are upregulated after bleeding or clotting events and support wound healing. In the context of an injury, thrombin activation drives conversion of fibrinogen to fibrin. Fibrin deposition contains tissue damage, stops blood loss, and prevents microbial infection. In most circumstances, fibrin needs to be removed to allow the resolution of inflammation and tissue repair, whereas failure of this may lead to the development of various disorders. However, the contribution of fibrinogen to tissue inflammation and repair is likely to be context-dependent. In this study, the concept that fibrin needs to be removed to allow tissue repair and to reduce inflammation is challenged by our observations that, in the intestine, fibrinogen is constitutively produced by a subset of intestinal epithelial cells and deposited at the basement membrane as fibrin where it serves as a substrate for wound healing under physiological conditions such as epithelial shedding at the tip of the small intestinal villus and surface epithelium of the colon as well as under pathological conditions that require rapid epithelial repair. The functional integrity of the intestine is ensured by the constant renewal of its simple epithelium. Superficial denuding of the epithelial cell layer occurs regularly and is rapidly corrected by a process called restitution that can be influenced by various soluble and insoluble factors. Epithelial cell interaction with the extracellular matrix greatly influences the healing process by acting on cell morphology, adhesion, and migration. The functional contribution of a fibrin(ogen) matrix in the intestine was studied under physiological and pathological contexts. Our results (immunofluorescence, immunoelectron microscopy, and quantitative PCR) show that fibrin(ogen) is a novel component of the basement membrane associated with the differentiated epithelial cell population in both the small intestine and colon. Fibrin(ogen) alone is a weak ligand for epithelial cells and behaves as an anti-adhesive molecule in the presence of type I collagen. Furthermore, the presence of fibrin(ogen) significantly shortens the time required to achieve closure of wounded epithelial cell monolayers and co-cultures in a PI3K-dependent manner. In human specimens with Crohn’s disease, we observed a major accumulation of fibrin(ogen) throughout the tissue and at denuded sites. In mice in which fibrin formation was inhibited with dabigatran treatment, dextran sulfate sodium administration provoked a significant increase in the disease activity index and pathological features such as mucosal ulceration and crypt abscess formation. Taken together, these results suggest that fibrin(ogen) contributes to epithelial healing under both normal and pathological conditions.

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Amira Seltana

Degeneration of the Pericryptal Myofibroblast Sheath by Proinflammatory Cytokines in Inflammatory Bowel Diseases

Src family kinase inhibitor PP2 accelerates differentiation in human intestinal epithelial cells

Intestinal epithelial wound healing assay in an epithelialâmesenchymal co-culture system

M1617 Intestinal Epithelial Wound Healing Assay in An Epithelial-Mesenchymal Co-Culture System

Fibrin(ogen) Is Constitutively Expressed by Differentiated Intestinal Epithelial Cells and Mediates Wound Healing

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Amira Seltana

Degeneration of the Pericryptal Myofibroblast Sheath by Proinflammatory Cytokines in Inflammatory Bowel Diseases

Src family kinase inhibitor PP2 accelerates differentiation in human intestinal epithelial cells

Intestinal epithelial wound healing assay in an epithelialâmesenchymal co-culture system

M1617 Intestinal Epithelial Wound Healing Assay in An Epithelial-Mesenchymal Co-Culture System

Fibrin(ogen) Is Constitutively Expressed by Differentiated Intestinal Epithelial Cells and Mediates Wound Healing

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Intestinal epithelial wound healing assay in an epithelialâmesenchymal co-culture system