Publications by authors named "Scott H Wettlaufer"

Extracellular vesicles, including exosomes and shed microvesicles (MVs), can be internalized by recipient cells to modulate function. Although the mechanism by which extracellular vesicles are internalized is incompletely characterized, it is generally considered to involve endocytosis and an initial surface-binding event. Furthermore, modulation of uptake by microenvironmental factors is largely unstudied.

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Prostaglandin E (PGE), via cAMP signaling, inhibits a variety of fibroblast functions relevant to fibrogenesis. Among these are their translation of collagen I protein and their differentiation to myofibroblasts. PKA is central to these actions, with cAMP binding to regulatory (R) subunits leading to the release of catalytic subunits.

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Myofibroblasts, the major effector cells in pathologic fibrosis, derive from the differentiation of fibroblasts driven by mediators such as transforming growth factor-β1 (TGF-β1) and biomechanical signals. Although the myofibroblast has traditionally been considered a terminally differentiated cell, the lipid mediator prostaglandin E2 (PGE2) has been shown to not only prevent but also reverse myofibroblast differentiation, as characterized by the ability of PGE2 to diminish expression of collagen I and α-smooth muscle actin in established myofibroblasts. Here, we use microarrays to examine the extent of transcriptomic changes that occur during TGF-β1-induced differentiation and PGE2-induced dedifferentiation of myofibroblasts.

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Asthma is a chronic lung disease characterized by local inflammation that can result in structural alterations termed airway remodeling. One component of airway remodeling involves fibroblast accumulation and activation, resulting in deposition of collagen I around small bronchi. Prostaglandin E(2) (PGE(2)) is the main eicosanoid lipid mediator produced by lung fibroblasts, and it exerts diverse anti-fibrotic actions.

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Plasminogen activation to plasmin protects from lung fibrosis, but the mechanism underlying this antifibrotic effect remains unclear. We found that mice lacking plasminogen activation inhibitor-1 (PAI-1), which are protected from bleomycin-induced pulmonary fibrosis, exhibit lung overproduction of the antifibrotic lipid mediator prostaglandin E2 (PGE2). Plasminogen activation upregulated PGE2 synthesis in alveolar epithelial cells, lung fibroblasts, and lung fibrocytes from saline- and bleomycin-treated mice, as well as in normal fetal and adult primary human lung fibroblasts.

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Although the lipid mediator prostaglandin E(2) (PGE(2)) exerts antifibrotic effects by inhibiting multiple fibroblast functions, its ability to regulate fibroblast survival is unknown. Here, we examined the effects of this prostanoid on apoptosis and apoptosis pathways in normal and fibrotic lung fibroblasts. As compared to medium alone, 24 h of treatment with PGE(2) increased apoptosis of normal lung fibroblasts in a dose-dependent manner (EC(50) approximately 50 nM), as measured by annexin V staining, caspase 3 activity, cleavage of poly-ADP-ribose polymerase, and single-stranded DNA levels.

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Via their capacities for proliferation and synthesis of matrix proteins such as collagen, fibroblasts are key effectors in the pathogenesis of fibrotic disorders such as idiopathic pulmonary fibrosis. Prostaglandin E(2) (PGE(2)) potently inhibits these functions in lung fibroblasts through receptor ligation and production of the second messenger cAMP, but the downstream pathways mediating such actions have not been fully characterized. We sought to investigate the roles of the cAMP effectors protein kinase A (PKA) and exchange protein activated by cAMP-1 (Epac-1) in modulating these two functions in primary human fetal lung IMR-90 fibroblasts.

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Rationale: Prostaglandin (PG) E2, a cyclooxygenase-derived lipid mediator, is a potent down-regulator of fibroblast activation in normal lung fibroblasts. Although fibroblasts from patients with idiopathic pulmonary fibrosis are known to exhibit a defect in PGE2 synthesis, there is little information about their responsiveness to this lipid mediator.

Objectives: To compare responses to PGE2 in normal, usual interstitial pneumonia (UIP), and other diffuse parenchymal lung disease (DPLD) fibroblasts.

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Uncontrolled fibroblast activation is one of the hallmarks of fibrotic lung disease. Prostaglandin E(2) (PGE(2)) has been shown to inhibit fibroblast migration, proliferation, collagen deposition, and myofibroblast differentiation in the lung. Understanding the mechanisms for these effects may provide insight into the pathogenesis of fibrotic lung disease.

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