Citations to this article
Abstract
Isolated human plasma very low density, intermediate density, and high density lipo-proteins at physiologic concentrations have been demonstrated in the preceding report to induce significant increases in the procoagulant activity of human peripheral blood mononuclear cells in vitro, whereas low density lipoprotein did not. The monocyte was identified in this study by cellular fractionation and by direct cytologic assays as the source of this inducible activity, thus identifying the procoagulant activity as a monokine. The generation of these lipoprotein-induced procoagulant monokines was entirely dependent upon the presence of lymphocytes. Isolated lymphocytes that had been exposed to the stimulatory lipoproteins could induce monocytes to produce the procoagulant activity, whereas neither the culture medium from lipoprotein-stimulated lymphocytes, homogenates of lymphocytes, nor other cells such as platelets could substitute for this requirement. The interaction of the stimulatory lipoproteins with lymphocytes was rapid, reaching completion within 30 min, and was equally effective at either 4° or 37°C. Low density lipoprotein did not stimulate lymphocytes to induce monocyte procoagulant activity, but did actively suppress the production of the procoagulant monokines induced by each of the stimulatory lipoproteins, as well as bacterial lipopolysaccharide. The monocyte was identified as the cell sensitive to low density lipoprotein suppression, and no suppression of lymphocyte triggering was observed. These observations on the interaction of plasma lipoproteins with lymphocytes and monocytes in vitro introduce two new regulatory events by which plasma lipoproteins influence the function of cells, and define a regulatory network by which certain lipoprotein classes trigger lymphocytes, which can in turn induce monocytes to express procoagulant activity. Only this latter phase is subject to lipoprotein suppression by physiologic concentrations of low density lipoprotein.
Authors
Gary A. Levy, Bradford S. Schwartz, Linda K. Curtiss, Thomas S. Edgington
Total citations by year
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| Title and authors | Publication | Year |
|---|---|---|
|
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HC Kwaan, D Green |
2009 | |
|
Coagulation in Cancer
HC Kwaan, D Green |
2009 | |
|
Coagulation in Cancer
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2009 | |
|
Coagulation in Cancer
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2009 | |
|
Coagulation in Cancer
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2009 | |
|
Coagulation in Cancer
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2009 | |
|
Coagulation in Cancer
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2009 | |
|
Coagulation in Cancer
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|
Coagulation in Cancer
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2009 | |
|
Coagulation in Cancer
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2009 | |
|
Extrahepatic Synthesis of Factor VII in Human Atherosclerotic Vessels
JN Wilcox, S Noguchi, J Casanova |
Arteriosclerosis, thrombosis, and vascular biology | 2003 |
|
Oxidized LDLs influence thrombotic response and cyclooxygenase 2
C Banfi, S Colli, S Eligini, L Mussoni, E Tremoli |
Prostaglandins, Leukotrienes and Essential Fatty Acids | 2002 |
|
The biology and tumour-related properties of monocyte tissue factor
BA Lwaleed, PS Bass, AJ Cooper |
The Journal of Pathology | 2001 |
|
Extrahepatic Synthesis of FVII in Human Atheroma and Smooth Muscle Cells in Vitro
JN Wilcox, S Noguchi, JR Casanova, ME Rasmussen |
Annals of the New York Academy of Sciences | 2001 |
|
Smooth muscle cell surface tissue factor pathway activation by oxidized low-density lipoprotein requires cellular lipid peroxidation
MS Penn, MZ Cui, AL Winokur, J Bethea, TA Hamilton, PE DiCorleto, GM Chisolm |
Blood | 2000 |
|
Tissue factor in atherosclerosis
E Tremoli, M Camera, V Toschi, S Colli |
Atherosclerosis | 1999 |
|
Atherosclerosis
EM MD, ST MD, EA MD, AW MD, ED MD |
The Annals of Thoracic Surgery | 1997 |
|
Lipoproteins do not modulate the tissue factor activity, plasminogen activator or tumour necrosis factor production induced by lipopolysaccharide stimulation of human monocytes
E Schlichting, T Henriksen, T Lyberg |
Scandinavian Journal of Clinical & Laboratory Investigation | 1994 |
|
Tissue factor contributes to microvascular defects after focal cerebral ischemia
WS Thomas, E Mori, BR Copeland, JQ Yu, JH Morrissey, GJ del Zoppo |
Stroke; a journal of cerebral circulation | 1993 |
|
Uptake of exogenous free cholesterol induces upregulation of tissue factor expression in human monocyte-derived macrophages
P Lesnik, M Rouis, S Skarlatos, HS Kruth, MJ Chapman |
Proceedings of the National Academy of Sciences | 1992 |
|
Mononuclear Phagocytes
R van Furth |
1992 | |
|
Minimally oxidized low-density lipoprotein induces tissue factor expression in cultured human endothelial cells
TA Drake, K Hannani, HH Fei, S Lavi, JA Berliner |
The American Journal of Pathology | 1991 |
|
International Review of Cytology
RA Miller |
International Review of Cytology | 1991 |
|
Inhibition of endotoxin-induced monocytic procoagulant activity by n-alcohols and anesthetics
AJ Chu |
Comparative Biochemistry and Physiology Part C: Comparative Pharmacology | 1991 |
|
Ancrod improves survival in murine systemic lupus erythematosus
EH Cole, MF Glynn, CA Laskin, J Sweet, N Mason, GA Levy |
Kidney International | 1990 |
|
Localization of tissue factor in the normal vessel wall and in the atherosclerotic plaque
JN Wilcox, KM Smith, SM Schwartz, D Gordon |
Proceedings of the National Academy of Sciences | 1989 |
|
Sphingosine inhibits monocyte tissue factor-initiated coagulation by altering factor VII binding
PR Conkling, KL Patton, YA Hannun, CS Greenberg, JB Weinberg |
The Journal of biological chemistry | 1989 |
|
Initiation of Coagulation by Tissue Facto
RR Bach |
Critical Reviews in Biochemistry and Molecular Biology | 1988 |
|
A streptokinase dependent plasma factor (SKDF) induces leucocyte tissue factor activity
J Niemetz, S Kang |
British Journal of Haematology | 1988 |
|
Endothelial Cell Biology in Health and Disease
N Simionescu, M Simionescu |
1988 | |
|
The regulation of natural anticoagulant pathways
C Esmon |
Science | 1987 |
|
Tissue factor (coagulation factor III) inhibition by apolipoprotein A-II
SD Carson |
The Journal of biological chemistry | 1987 |
|
Enhancement of mononuclear procoagulant activity by platelet 12-hydroxyeicosatetraenoic acid
R Lorenzet, J Niemetz, AJ Marcus, MJ Broekman |
Journal of Clinical Investigation | 1986 |
|
Binding of fibrinogen to human monocytes
DC Altieri, PM Mannucci, AM Capitanio |
Journal of Clinical Investigation | 1986 |
|
Complement
D Vergani |
Diabetic Medicine | 1986 |
|
Cellular and vascular manifestations of cell-mediated immunity
HF Dvorak, SJ Galli, AM Dvorak |
Human Pathology | 1986 |
|
Monocyte procoagulant activity in glomerulonephritis associated with systemic lupus erythematosus
EH Cole, J Schulman, M Urowitz, E Keystone, C Williams, GA Levy |
Journal of Clinical Investigation | 1985 |
|
Formation of the Fibrin Clot: the Balance of Procoagulant and Inhibitory Factors
B Lämmle, JH Griffin |
Clinics in Haematology | 1985 |
|
Monocyte procoagulant activity in Whipple's disease
CA Ottaway, RE Warren, FG Saibil, LS Fung, DS Fair, GA Levy |
Journal of Clinical Immunology | 1984 |
|
LDL cytotoxicity The state of the art
VW Hinsbergh |
Atherosclerosis | 1984 |
|
Lipoproteins, cell membranes and cellular functions
JS Owen, N McIntyre, MP Gillett |
Trends in Biochemical Sciences | 1984 |
|
Investigation of Membrane-Located Receptors
E Reid, GM Cook, DJ Morré |
1984 | |
|
A sensitive radioimmunoassay for the determination of antibodies to mouse hepatitis virus
JL Leibowitz, LS Fung, GA Levy |
Journal of Virological Methods | 1983 |
|
The effect of mouse hepatitis virus infection on the microcirculation of the liver
LG Guidotti, FV Chisari |
Hepatology | 1983 |
|
Relationships among the complement, kinin, coagulation, and fibrinolytic systems
JS Sundsmo, DS Fair |
Springer Seminars in Immunopathology | 1983 |
|
The Effect of Mouse Hepatitis Virus Infection on the Microcirculation of the Liver
Levy GA, Macphee PJ, Fung LS, Fisher MM, Rappaport AM |
Hepatology | 1983 |
|
Binding of human factor VII and VIIa to monocytes
GJ Broze |
Journal of Clinical Investigation | 1982 |
|
Murine lymphoid procoagulant activity induced by bacterial lipopolysaccharide and immune complexes is a monocyte prothrombinase
BS Schwartz, GA Levy, DS Fair, TS Edgington |
Journal of Experimental Medicine | 1982 |
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