Book contents
- Frontmatter
- Contents
- Editor, Associate Editors, Artistic Consultant, and Contributors
- Preface
- PART I CONTEXT
- PART II ENDOTHELIAL CELL AS INPUT-OUTPUT DEVICE
- 27 Introductory Essay: Endothelial Cell Input
- 28 Hemodynamics in the Determination of Endothelial Phenotype and Flow Mechanotransduction
- 29 Hypoxia-Inducible Factor 1
- 30 Integrative Physiology of Endothelial Cells: Impact of Regional Metabolism on the Composition of Blood-Bathing Endothelial Cells
- 31 Tumor Necrosis Factor
- 32 Vascular Permeability Factor/Vascular Endothelial Growth Factor and Its Receptors: Evolving Paradigms in Vascular Biology and Cell Signaling
- 33 Function of Hepatocyte Growth Factor and Its Receptor c-Met in Endothelial Cells
- 34 Fibroblast Growth Factors
- 35 Transforming Growth Factor-β and the Endothelium
- 36 Thrombospondins
- 37 Neuropilins: Receptors Central to Angiogenesis and Neuronal Guidance
- 38 Vascular Functions of Eph Receptors and Ephrin Ligands
- 39 Endothelial Input from the Tie1 and Tie2 Signaling Pathway
- 40 Slits and Netrins in Vascular Patterning: Taking Cues from the Nervous System
- 41 Notch Genes: Orchestrating Endothelial Differentiation
- 42 Reactive Oxygen Species
- 43 Extracellular Nucleotides and Nucleosides as Autocrine and Paracrine Regulators within the Vasculature
- 44 Syndecans
- 45 Sphingolipids and the Endothelium
- 46 Endothelium: A Critical Detector of Lipopolysaccharide
- 47 Receptor for Advanced Glycation End-products and the Endothelium: A Path to the Complications of Diabetes and Inflammation
- 48 Complement
- 49 Kallikrein-Kinin System
- 50 Opioid Receptors in Endothelium
- 51 Snake Toxins and Endothelium
- 52 Inflammatory Cues Controlling Lymphocyte–Endothelial Interactions in Fever-Range Thermal Stress
- 53 Hyperbaric Oxygen and Endothelial Responses in Wound Healing and Ischemia–Reperfusion Injury
- 54 Barotrauma
- 55 Endothelium and Diving
- 56 Exercise and the Endothelium
- 57 The Endothelium at High Altitude
- 58 Endothelium in Space
- 59 Toxicology and the Endothelium
- 60 Pericyte–Endothelial Interactions
- 61 Vascular Smooth Muscle Cells: The Muscle behind Vascular Biology
- 62 Cross-Talk between the Red Blood Cell and the Endothelium: Nitric Oxide as a Paracrine and Endocrine Regulator of Vascular Tone
- 63 Leukocyte–Endothelial Cell Interactions
- 64 Platelet–Endothelial Interactions
- 65 Cardiomyocyte–Endothelial Cell Interactions
- 66 Interactions between Hepatocytes and Liver Sinusoidal Endothelial Cells
- 67 Stellate Cell–Endothelial Cell Interactions
- 68 Podocyte–Endothelial Interactions
- 69 Introductory Essay: Endothelial Cell Coupling
- 70 Endothelial and Epithelial Cells: General Principles of Selective Vectorial Transport
- 71 Electron Microscopic–Facilitated Understanding of Endothelial Cell Biology: Contributions Established during the 1950s and 1960s
- 72 Weibel-Palade Bodies: Vesicular Trafficking on the Vascular Highways
- 73 Multiple Functions and Clinical Uses of Caveolae in Endothelium
- 74 Endothelial Structures Involved in Vascular Permeability
- 75 Endothelial Luminal Glycocalyx: Protective Barrier between Endothelial Cells and Flowing Blood
- 76 The Endothelial Cytoskeleton
- 77 Endothelial Cell Integrins
- 78 Aquaporin Water Channels and the Endothelium
- 79 Ion Channels in Vascular Endothelium
- 80 Regulation of Angiogenesis and Vascular Remodeling by Endothelial Akt Signaling
- 81 Mitogen-Activated Protein Kinases
- 82 Protein Kinase C
- 83 Rho GTP-Binding Proteins
- 84 Protein Tyrosine Phosphatases
- 85 Role of β-Catenin in Endothelial Cell Function
- 86 Nuclear Factor-κB Signaling in Endothelium
- 87 Peroxisome Proliferator-Activated Receptors and the Endothelium
- 88 GATA Transcription Factors
- 89 Coupling: The Role of Ets Factors
- 90 Early Growth Response-1 Coupling in Vascular Endothelium
- 91 KLF2: A “Molecular Switch” Regulating Endothelial Function
- 92 NFAT Transcription Factors
- 93 Forkhead Signaling in the Endothelium
- 94 Genetics of Coronary Artery Disease and Myocardial Infarction: The MEF2 Signaling Pathway in the Endothelium
- 95 Vezf1: A Transcriptional Regulator of the Endothelium
- 96 Sox Genes: At the Heart of Endothelial Transcription
- 97 Id Proteins and Angiogenesis
- 98 Introductory Essay: Endothelial Cell Output
- 99 Proteomic Mapping of Endothelium and Vascular Targeting in Vivo
- 100 A Phage Display Perspective
- 101 Hemostasis and the Endothelium
- 102 Von Willebrand Factor
- 103 Tissue Factor Pathway Inhibitor
- 104 Tissue Factor Expression by the Endothelium
- 105 Thrombomodulin
- 106 Heparan Sulfate
- 107 Antithrombin
- 108 Protein C
- 109 Vitamin K–Dependent Anticoagulant Protein S
- 110 Nitric Oxide as an Autocrine and Paracrine Regulator of Vessel Function
- 111 Heme Oxygenase and Carbon Monoxide in Endothelial Cell Biology
- 112 Endothelial Eicosanoids
- 113 Regulation of Endothelial Barrier Responses and Permeability
- 114 Molecular Mechanisms of Leukocyte Transendothelial Cell Migration
- 115 Functions of Platelet-Endothelial Cell Adhesion Molecule-1 in the Vascular Endothelium
- 116 P-Selectin
- 117 Intercellular Adhesion Molecule-1 and Vascular Cell Adhesion Molecule-1
- 118 E-Selectin
- 119 Endothelial Cell Apoptosis
- 120 Endothelial Antigen Presentation
- PART III VASCULAR BED/ORGAN STRUCTURE AND FUNCTION IN HEALTH AND DISEASE
- PART IV DIAGNOSIS AND TREATMENT
- PART V CHALLENGES AND OPPORTUNITIES
- Index
- Plate section
109 - Vitamin K–Dependent Anticoagulant Protein S
from PART II - ENDOTHELIAL CELL AS INPUT-OUTPUT DEVICE
Published online by Cambridge University Press: 04 May 2010
Edited by
Book contents
- Frontmatter
- Contents
- Editor, Associate Editors, Artistic Consultant, and Contributors
- Preface
- PART I CONTEXT
- PART II ENDOTHELIAL CELL AS INPUT-OUTPUT DEVICE
- 27 Introductory Essay: Endothelial Cell Input
- 28 Hemodynamics in the Determination of Endothelial Phenotype and Flow Mechanotransduction
- 29 Hypoxia-Inducible Factor 1
- 30 Integrative Physiology of Endothelial Cells: Impact of Regional Metabolism on the Composition of Blood-Bathing Endothelial Cells
- 31 Tumor Necrosis Factor
- 32 Vascular Permeability Factor/Vascular Endothelial Growth Factor and Its Receptors: Evolving Paradigms in Vascular Biology and Cell Signaling
- 33 Function of Hepatocyte Growth Factor and Its Receptor c-Met in Endothelial Cells
- 34 Fibroblast Growth Factors
- 35 Transforming Growth Factor-β and the Endothelium
- 36 Thrombospondins
- 37 Neuropilins: Receptors Central to Angiogenesis and Neuronal Guidance
- 38 Vascular Functions of Eph Receptors and Ephrin Ligands
- 39 Endothelial Input from the Tie1 and Tie2 Signaling Pathway
- 40 Slits and Netrins in Vascular Patterning: Taking Cues from the Nervous System
- 41 Notch Genes: Orchestrating Endothelial Differentiation
- 42 Reactive Oxygen Species
- 43 Extracellular Nucleotides and Nucleosides as Autocrine and Paracrine Regulators within the Vasculature
- 44 Syndecans
- 45 Sphingolipids and the Endothelium
- 46 Endothelium: A Critical Detector of Lipopolysaccharide
- 47 Receptor for Advanced Glycation End-products and the Endothelium: A Path to the Complications of Diabetes and Inflammation
- 48 Complement
- 49 Kallikrein-Kinin System
- 50 Opioid Receptors in Endothelium
- 51 Snake Toxins and Endothelium
- 52 Inflammatory Cues Controlling Lymphocyte–Endothelial Interactions in Fever-Range Thermal Stress
- 53 Hyperbaric Oxygen and Endothelial Responses in Wound Healing and Ischemia–Reperfusion Injury
- 54 Barotrauma
- 55 Endothelium and Diving
- 56 Exercise and the Endothelium
- 57 The Endothelium at High Altitude
- 58 Endothelium in Space
- 59 Toxicology and the Endothelium
- 60 Pericyte–Endothelial Interactions
- 61 Vascular Smooth Muscle Cells: The Muscle behind Vascular Biology
- 62 Cross-Talk between the Red Blood Cell and the Endothelium: Nitric Oxide as a Paracrine and Endocrine Regulator of Vascular Tone
- 63 Leukocyte–Endothelial Cell Interactions
- 64 Platelet–Endothelial Interactions
- 65 Cardiomyocyte–Endothelial Cell Interactions
- 66 Interactions between Hepatocytes and Liver Sinusoidal Endothelial Cells
- 67 Stellate Cell–Endothelial Cell Interactions
- 68 Podocyte–Endothelial Interactions
- 69 Introductory Essay: Endothelial Cell Coupling
- 70 Endothelial and Epithelial Cells: General Principles of Selective Vectorial Transport
- 71 Electron Microscopic–Facilitated Understanding of Endothelial Cell Biology: Contributions Established during the 1950s and 1960s
- 72 Weibel-Palade Bodies: Vesicular Trafficking on the Vascular Highways
- 73 Multiple Functions and Clinical Uses of Caveolae in Endothelium
- 74 Endothelial Structures Involved in Vascular Permeability
- 75 Endothelial Luminal Glycocalyx: Protective Barrier between Endothelial Cells and Flowing Blood
- 76 The Endothelial Cytoskeleton
- 77 Endothelial Cell Integrins
- 78 Aquaporin Water Channels and the Endothelium
- 79 Ion Channels in Vascular Endothelium
- 80 Regulation of Angiogenesis and Vascular Remodeling by Endothelial Akt Signaling
- 81 Mitogen-Activated Protein Kinases
- 82 Protein Kinase C
- 83 Rho GTP-Binding Proteins
- 84 Protein Tyrosine Phosphatases
- 85 Role of β-Catenin in Endothelial Cell Function
- 86 Nuclear Factor-κB Signaling in Endothelium
- 87 Peroxisome Proliferator-Activated Receptors and the Endothelium
- 88 GATA Transcription Factors
- 89 Coupling: The Role of Ets Factors
- 90 Early Growth Response-1 Coupling in Vascular Endothelium
- 91 KLF2: A “Molecular Switch” Regulating Endothelial Function
- 92 NFAT Transcription Factors
- 93 Forkhead Signaling in the Endothelium
- 94 Genetics of Coronary Artery Disease and Myocardial Infarction: The MEF2 Signaling Pathway in the Endothelium
- 95 Vezf1: A Transcriptional Regulator of the Endothelium
- 96 Sox Genes: At the Heart of Endothelial Transcription
- 97 Id Proteins and Angiogenesis
- 98 Introductory Essay: Endothelial Cell Output
- 99 Proteomic Mapping of Endothelium and Vascular Targeting in Vivo
- 100 A Phage Display Perspective
- 101 Hemostasis and the Endothelium
- 102 Von Willebrand Factor
- 103 Tissue Factor Pathway Inhibitor
- 104 Tissue Factor Expression by the Endothelium
- 105 Thrombomodulin
- 106 Heparan Sulfate
- 107 Antithrombin
- 108 Protein C
- 109 Vitamin K–Dependent Anticoagulant Protein S
- 110 Nitric Oxide as an Autocrine and Paracrine Regulator of Vessel Function
- 111 Heme Oxygenase and Carbon Monoxide in Endothelial Cell Biology
- 112 Endothelial Eicosanoids
- 113 Regulation of Endothelial Barrier Responses and Permeability
- 114 Molecular Mechanisms of Leukocyte Transendothelial Cell Migration
- 115 Functions of Platelet-Endothelial Cell Adhesion Molecule-1 in the Vascular Endothelium
- 116 P-Selectin
- 117 Intercellular Adhesion Molecule-1 and Vascular Cell Adhesion Molecule-1
- 118 E-Selectin
- 119 Endothelial Cell Apoptosis
- 120 Endothelial Antigen Presentation
- PART III VASCULAR BED/ORGAN STRUCTURE AND FUNCTION IN HEALTH AND DISEASE
- PART IV DIAGNOSIS AND TREATMENT
- PART V CHALLENGES AND OPPORTUNITIES
- Index
- Plate section
Summary
Protein S is a vitamin K–dependent plasma glycoprotein with anticoagulant properties (1–3). It is mainly synthesized in the liver and, to a lesser degree, in several other cell types including endothelium. Protein S binds to negatively charged phospholipid membranes, where it functions as a cofactor to activated protein C (APC) in the degradation of coagulation factors Va and VIIIa, cofactors in the prothrombinase and tenase complexes, respectively. In addition, protein S has APC-independent anticoagulant activities, which directly inhibit both the prothrombinase and the tenase complexes. In vivo, endothelium presumably promotes the anticoagulant activity of protein S by providing a suitable phospholipid membrane for interaction with APC. Protein S normally circulates in human plasma at a concentration of 0.30 µM. In human plasma, 60% to 70% of protein S is bound to the high-molecular- weight C4b-binding protein (C4BP), a regulator of the classical complement pathway (3,4). The remaining 30% to 40% of protein S circulates as free protein. Thus, protein S functions as a link between the protein C anticoagulant system and the complement system.
PROTEIN S GENE AND SYNTHESIS
Protein S in plasma is mainly derived from synthesis in the liver. In addition, endothelial cells (ECs), testicular Leydig cells, and osteoblasts synthesize protein S (3). Platelets contain protein S, but it is not known whether this is derived from megakaryocytic synthesis or from uptake of plasma protein S. However, protein S synthesis has been demonstrated in a megakaryocytic cell line, suggesting megakaryocytes have the capacity to synthesize the protein. Two protein S genes (PROS1 and PROSP) are found in the human genome, but only PROS1 is expressed, where as PROSP is a pseudogene.
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- Endothelial Biomedicine , pp. 982 - 987Publisher: Cambridge University PressPrint publication year: 2007