Interaction of human liver connective tissue cells, skin fibroblasts and smooth muscle cells with collagen gels

Hepatology ◽  
1987 ◽  
Vol 7 (4) ◽  
pp. 665-671 ◽  
Author(s):  
Alvaro N. A. Monteiro ◽  
Radovan Borojevic
Keyword(s):  
Smooth Muscle ◽  
Connective Tissue ◽  
Smooth Muscle Cells ◽  
Human Liver ◽  
Muscle Cells ◽  
Skin Fibroblasts ◽  
Collagen Gels ◽  
Tissue Cells ◽  
Liver Connective Tissue Cells

Plasminogen Activator Inhibitor-1 Expression in Human Liver and Healthy or Atherosclerotic Vessel Walls

1994 ◽  
Vol 72 (01) ◽  
pp. 044-053 ◽  
Author(s):  
N Chomiki ◽  
M Henry ◽  
M C Alessi ◽  
F Anfosso ◽  
I Juhan-Vague
Keyword(s):  
Endothelial Cells ◽  
Smooth Muscle ◽  
Smooth Muscle Cells ◽  
Plasminogen Activator ◽  
Human Liver ◽  
Plasminogen Activator Inhibitor ◽  
Muscle Cells ◽  
Vessel Walls ◽  
Activator Inhibitor ◽  
Pai 1

SummaryIndividuals with elevated levels of plasminogen activator inhibitor type 1 are at risk of developing atherosclerosis. The mechanisms leading to increased plasma PAI-1 concentrations are not well understood. The link observed between increased PAI-1 levels and insulin resistance has lead workers to investigate the effects of insulin or triglyceride rich lipoproteins on PAI-1 production by cultured hepatocytes or endothelial cells. However, little is known about the contribution of these cells to PAI-1 production in vivo. We have studied the expression of PAI-1 in human liver sections as well as in vessel walls from different territories, by immunocytochemistry and in situ hybridization.We have observed that normal liver endothelial cells expressed PAI-1 while parenchymal cells did not. However, this fact does not refute the role of parenchymal liver cells in pathological states.In healthy vessels, PAI-1 mRNA and protein were detected primarily at the endothelium from the lumen as well as from the vasa vasorum. In normal arteries, smooth muscle cells were able to produce PAI-1 depending on the territory tested. In deeply altered vessels, PAI-1 expression was observed in neovessels scattering the lesions, in some intimal cells and in smooth muscle cells. Local increase PAI-1 mRNA described in atherosclerotic lesions could be due to the abundant neovascularization present in the lesion as well as a raised expression in smooth muscle cells. The increased PAI-1 in atherosclerosis could lead to fibrin deposit during plaque rupture contributing further to the development and progression of the lesion.

Abstract 418: Co-Culture of Endothelial Cells, Smooth Muscle Cells and Monocytes in Collagen Scaffold: A Novel i n vitro Model of Atherosclerosis

2017 ◽  
Vol 37 (suppl_1) ◽  
Author(s):  
Martin Liu ◽  
Angelos Karagiannis ◽  
Matthew Sis ◽  
Srivatsan Kidambi ◽  
Yiannis Chatzizisis
Keyword(s):  
Endothelial Cells ◽  
Smooth Muscle ◽  
Smooth Muscle Cells ◽  
Type I Collagen ◽  
Smooth Muscle Actin ◽  
Muscle Cells ◽  
Type I ◽  
Collagen Gels ◽  
Human Coronary Artery

Objectives: To develop and validate a 3D in-vitro model of atherosclerosis that enables direct interaction between various cell types and/or extracellular matrix. Methods and Results: Type I collagen (0.75 mg/mL) was mixed with human artery smooth muscle cells (SMCs; 6x10 5 cells/mL), medium, and water. Human coronary artery endothelial cells (HCAECs; 10 5 /cm 2 ) were plated on top of the collagen gels and activated with oxidized low density lipoprotein cholesterol (LDL-C). Monocytes (THP-1 cells; 10 5 /cm 2 ) were then added on top of the HCAECs. Immunofluorescence showed the expression of VE-cadherin by HCAECs (A, B) and α-smooth muscle actin by SMCs (A). Green-labelled LDL-C particles were accumulated in the subendothelial space, as well as in the cytoplasm of HCAECs and SMCs (C). Activated monocytes were attached to HCAECs and found in the subendothelial area (G-I). Both HCAECs and SMCs released IL-1β, IL-6, IL-8, PDGF-BB, TGF-ß1, and VEGF. Scanning and transmission electron microscopy showed the HCAECs monolayer forming gap junctions and the SMCs (D-F) and transmigrating monocytes within the collagen matrix (G-I). Conclusions: In this work, we presented a novel, easily reproducible and functional in-vitro experimental model of atherosclerosis that has the potential to enable in-vitro sophisticated molecular and drug development studies.

scholarly journals Immunocytochemical characteristics of submucosal uterine myomas

2010 ◽  
Vol 67 (12) ◽  
pp. 977-982 ◽  
Author(s):  
Aleksandra Mladenovic-Mihailovic ◽  
Zorica Mladenovic-Bogdanovic ◽  
Predrag Mitrovic ◽  
Irena Tanaskovic ◽  
Slavica Usaj-Knezevic ◽  
...  
Keyword(s):  
Smooth Muscle ◽  
Connective Tissue ◽  
Smooth Muscle Cells ◽  
Smooth Muscle Actin ◽  
Muscle Cells ◽  
Synthetic Activity ◽  
Benign Tumors ◽  
Paraffin Sections ◽  
Weak Reaction ◽  
Synthetic Phenotype

Background/Aim. Myomas of the uterus, the most common benign tumors, have been studied for decades from the aspects of different basic and clinical disciplines. Despite this fact, their pathogenesis is still poorly understood. The aim of this study was to determine immunocytochemical characteristics of smooth muscle cells and connective tissue components of submucosal myomas of the uterus. Method. During the course of this study, 25 samples of submucosal myomas of the uterus were analyzed, all of them obtained during the surgery, after abdominal histerctomy by Aldridge. The samples were fixed in 4% formalin and embedded in paraffin. Sections of 5 ?m thickness were stained immunocytochemically using the DAKO LSAB+/HRP technique to identify ?- smooth muscle actin (?-SMA), vimentin, desmin, CD34, CD45, CD68 and PCNA (DAKO specification). Results. Our results suggest that submucosal myomas of the uterus are build-up of smooth muscle cells which are immunoreactive to ?-SMA and desmin, but also to a certain number of smooth muscle cells which are immunoreactive to ?-SMA and vimentin. Some of vimentin-immunoreactive cells also show an immunoreactivity of PCNA. In the build-up of connective stroma CD34-immunoreactive fibroblasts and neovascular formations are also present. By examining the distribution of CD45 antigen, at all the analyzed samples we observed a weak reaction. Conclusion. Submucosal myomas of the uterus are made-up of smooth muscle cells of the highly differentiated contractile phenotype (?-SMA- and desminimmunoreactivity), as well as smooth muscle cell of the synthetic phenotype which proliferate (?-SMA-, vimentin- and PCNA-immunoreactivity). In submucosal myoma of the uterus there is a significant presence of connective tissue as a result of synthetic activity of fibroblasts, which clearly differ in their immunocytochemical characteristics from smooth muscle cells of the synthetic phenotype.

The Role of Endothelial Cell Injury and Platelet Response in Atherogenesis

1977 ◽  
Author(s):  
L. A. Harker ◽  
R. Ross ◽  
J. Glomset
Keyword(s):  
Smooth Muscle ◽  
Endothelial Cell ◽  
Connective Tissue ◽  
Smooth Muscle Cells ◽  
Lipid Accumulation ◽  
Blood Platelets ◽  
Muscle Cells ◽  
Endothelial Injury ◽  
Intimal Proliferation ◽  
Flowing Blood

Endothelium forms a resistant barrier between flowing blood and vessel wall structures. Endothelial thromboresistance is maintained in part by the synthesis of prostacyclin, a potent prostaglandin inhibitor of platelet function. Loss of endothelial cells, mediated by physical, chemical, infectious or immune mechanisms, exposes the sub endothelium to flowing blood. Platelets react to the subendothelial connective tissue structures, undergoing adhesion and release of intracellular constituents, including a factor that is mitogenic to smooth muscle cells. This growth factor is a heat stable, basic protein (IP 7.4–9.4) of 20,000 Daltons and appears to be responsible for the intimal proliferation of smooth muscle cells that follows endothelial cell desquamation. After a single injury event the intimal lesion regresses over several months. Repeated or continuous endothelial cell loss results in progressive intimal proliferation of smooth muscle cells, their secretion of connective tissue matrix components (collagen, elastin and proteoglycans) and accumulation of lipid when animals are on a hypercholesterolemic diet to form early atherosclerotic intimal lesions. Discontinuance of endothelial injury and restoration of the endothelium appear to be followed by lesion regression except when lipid accumulation is extensive. Possible approaches to atherosclerosis prevention include: 1) protection of the endothelium by interruption or avoidance of endothelial injury factors, and perhaps by pharmacologic protection; 2) inhibition of platelet reactivity; 3) modification of SMC proliferation, secretion or lipid accumulation.

scholarly journals Agents which increase cyclic AMP have diverse effects on low-density-lipoprotein-receptor function in human vascular smooth-muscle cells and skin fibroblasts

1990 ◽  
Vol 267 (3) ◽  
pp. 607-614 ◽  
Author(s):  
A Middleton ◽  
B Middleton
Keyword(s):  
Smooth Muscle ◽  
Cyclic Amp ◽  
Vascular Smooth Muscle ◽  
Smooth Muscle Cells ◽  
Vascular Smooth Muscle Cells ◽  
Ldl Receptor ◽  
Muscle Cells ◽  
Skin Fibroblasts ◽  
Receptor Expression ◽  
Low Density

Receptor-mediated binding and metabolism of low-density lipoproteins (LDL) in cultured human vascular smooth-muscle cells and skin fibroblasts are altered by increased cellular cyclic AMP concentrations. However, the LDL receptor does not respond to changes in cyclic AMP concentration in a simple manner. The activation of adenylate cyclase with forskolin, or the addition of membrane-permeant cyclic AMP analogues, initially decreases the expression of the LDL receptor, but is followed by a substantial increase in receptor expression after 24 h. This increase does not occur in the presence of inhibitors of RNA or protein synthesis, and is due to doubling of the Bmax. of the LDL receptor, without alteration of its affinity for LDL. By contrast, elevation of cyclic AMP concentration by inhibition of phosphodiesterases results in decreased receptor expression throughout the 24 h period. These two response patterns are reproducible phenomena, consistently observed in low-passaged cells derived from seven unrelated individuals.

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