Postprandial Increase of Complement Component 3 in Normolipidemic Patients With Coronary Artery Disease: Effects of Expanded-Dose Simvastatin

Plasma concentrations of the third complement component (C3) predict the risk of myocardial infarction. Because chylomicrons stimulate C3 production by adipocytes in vitro, we investigated plasma C3 changes in vivo after an oral fat load. Thirty-seven subjects (20 normolipidemic patients with corona...

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Published inArteriosclerosis, thrombosis, and vascular biology Vol. 21; no. 9; pp. 1526 - 1530
Main Authors Halkes, C.J.M., van Dijk, H., de Jaegere, P.P.T., Plokker, H.W.M., van derHelm, Y., Erkelens, D. W., Castro Cabezas, M.
Format Journal Article
LanguageEnglish
Published Philadelphia, PA American Heart Association, Inc 01.09.2001
Hagerstown, MD Lippincott
Subjects
Apolipoproteins B - blood
Area Under Curve
Biological and medical sciences
Cardiovascular system
Complement C3 - metabolism
Coronary Artery Disease - blood
Fasting
Female
Humans
Hypolipidemic Agents - administration & dosage
Hypolipidemic Agents - pharmacology
Insulin Resistance
Male
Medical sciences
Middle Aged
Miscellaneous
Pharmacology. Drug treatments
Postprandial Period
Simvastatin - administration & dosage
Simvastatin - pharmacology
Triglycerides - blood
Human
Load
Enzyme
Postprandial
Complement C3
Treatment efficiency
Simvastatin
Oral administration
Enzyme inhibitor
Cardiovascular disease
Exploration
Lipids
Statin derivative
Coronary heart disease
Chemotherapy
Treatment
Hydroxymethylglutaryl-CoA reductase
Oxidoreductases
Dose
Antilipemic agent
Online AccessGet full text
ISSN1079-5642
1524-4636
1524-4636
DOI10.1161/hq0901.095276

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Abstract Plasma concentrations of the third complement component (C3) predict the risk of myocardial infarction. Because chylomicrons stimulate C3 production by adipocytes in vitro, we investigated plasma C3 changes in vivo after an oral fat load. Thirty-seven subjects (20 normolipidemic patients with coronary artery disease [CAD] and 17 healthy control subjects) underwent an oral fat load (50 g/m). C3 was measured at baseline and at 2-hour intervals after fat intake for 10 hours. The effects of lipid lowering by simvastatin were evaluated in 16 patients. Fasting plasma C3 was 1.06±0.26 and 0.90±0.12 g/L in CAD patients and control subjects, respectively. Fasting C3 was correlated with several parameters associated with insulin resistance. The best determinant of fasting C3 was waist circumference (adjusted R=0.48, β=0.71, P <0.001); the addition of postprandial triglyceridemia to the model improved it (adjusted R=0.63). Plasma C3 levels at 2, 4, and 6 hours after fat ingestion were significantly higher than fasting levels in patients and control subjects. C3 increased maximally to 1.39±0.33 g/L in patients and to 1.11±0.18 g/L in control subjects (P <0.01 for patients versus control subjects). Total postprandial triglyceridemia was the best determinant of maximal C3 increase (adjusted R=0.47, β=0.70;P <0.001). Treatment with simvastatin decreased fasting and postprandial C3 by 6% and 39%, respectively (P <0.05 for both versus no treatment). Postprandial plasma C3 concentrations increase in CAD patients and control subjects. Fasting C3 is associated with waist circumference, but postprandial C3 increment is associated with postprandial lipemia. Fasting and postprandial C3 concentrations decrease after treatment with simvastatin.
AbstractList Plasma concentrations of the third complement component (C3) predict the risk of myocardial infarction. Because chylomicrons stimulate C3 production by adipocytes in vitro, we investigated plasma C3 changes in vivo after an oral fat load. Thirty-seven subjects (20 normolipidemic patients with coronary artery disease [CAD] and 17 healthy control subjects) underwent an oral fat load (50 g/m(2)). C3 was measured at baseline and at 2-hour intervals after fat intake for 10 hours. The effects of lipid lowering by simvastatin were evaluated in 16 patients. Fasting plasma C3 was 1.06+/-0.26 and 0.90+/-0.12 g/L in CAD patients and control subjects, respectively. Fasting C3 was correlated with several parameters associated with insulin resistance. The best determinant of fasting C3 was waist circumference (adjusted R(2)=0.48, beta=0.71, P<0.001); the addition of postprandial triglyceridemia to the model improved it (adjusted R(2)=0.63). Plasma C3 levels at 2, 4, and 6 hours after fat ingestion were significantly higher than fasting levels in patients and control subjects. C3 increased maximally to 1.39+/-0.33 g/L in patients and to 1.11+/-0.18 g/L in control subjects (P<0.01 for patients versus control subjects). Total postprandial triglyceridemia was the best determinant of maximal C3 increase (adjusted R(2)=0.47, beta=0.70; P<0.001). Treatment with simvastatin decreased fasting and postprandial C3 by 6% and 39%, respectively (P<0.05 for both versus no treatment). Postprandial plasma C3 concentrations increase in CAD patients and control subjects. Fasting C3 is associated with waist circumference, but postprandial C3 increment is associated with postprandial lipemia. Fasting and postprandial C3 concentrations decrease after treatment with simvastatin.
Plasma concentrations of the third complement component (C3) predict the risk of myocardial infarction. Because chylomicrons stimulate C3 production by adipocytes in vitro, we investigated plasma C3 changes in vivo after an oral fat load. Thirty-seven subjects (20 normolipidemic patients with coronary artery disease [CAD] and 17 healthy control subjects) underwent an oral fat load (50 g/m 2 ). C3 was measured at baseline and at 2-hour intervals after fat intake for 10 hours. The effects of lipid lowering by simvastatin were evaluated in 16 patients. Fasting plasma C3 was 1.06±0.26 and 0.90±0.12 g/L in CAD patients and control subjects, respectively. Fasting C3 was correlated with several parameters associated with insulin resistance. The best determinant of fasting C3 was waist circumference (adjusted R 2 =0.48, β=0.71, P <0.001); the addition of postprandial triglyceridemia to the model improved it (adjusted R 2 =0.63). Plasma C3 levels at 2, 4, and 6 hours after fat ingestion were significantly higher than fasting levels in patients and control subjects. C3 increased maximally to 1.39±0.33 g/L in patients and to 1.11±0.18 g/L in control subjects ( P <0.01 for patients versus control subjects). Total postprandial triglyceridemia was the best determinant of maximal C3 increase (adjusted R 2 =0.47, β=0.70; P <0.001). Treatment with simvastatin decreased fasting and postprandial C3 by 6% and 39%, respectively ( P <0.05 for both versus no treatment). Postprandial plasma C3 concentrations increase in CAD patients and control subjects. Fasting C3 is associated with waist circumference, but postprandial C3 increment is associated with postprandial lipemia. Fasting and postprandial C3 concentrations decrease after treatment with simvastatin.
Plasma concentrations of the third complement component (C3) predict the risk of myocardial infarction. Because chylomicrons stimulate C3 production by adipocytes in vitro, we investigated plasma C3 changes in vivo after an oral fat load. Thirty-seven subjects (20 normolipidemic patients with coronary artery disease [CAD] and 17 healthy control subjects) underwent an oral fat load (50 g/m). C3 was measured at baseline and at 2-hour intervals after fat intake for 10 hours. The effects of lipid lowering by simvastatin were evaluated in 16 patients. Fasting plasma C3 was 1.06±0.26 and 0.90±0.12 g/L in CAD patients and control subjects, respectively. Fasting C3 was correlated with several parameters associated with insulin resistance. The best determinant of fasting C3 was waist circumference (adjusted R=0.48, β=0.71, P <0.001); the addition of postprandial triglyceridemia to the model improved it (adjusted R=0.63). Plasma C3 levels at 2, 4, and 6 hours after fat ingestion were significantly higher than fasting levels in patients and control subjects. C3 increased maximally to 1.39±0.33 g/L in patients and to 1.11±0.18 g/L in control subjects (P <0.01 for patients versus control subjects). Total postprandial triglyceridemia was the best determinant of maximal C3 increase (adjusted R=0.47, β=0.70;P <0.001). Treatment with simvastatin decreased fasting and postprandial C3 by 6% and 39%, respectively (P <0.05 for both versus no treatment). Postprandial plasma C3 concentrations increase in CAD patients and control subjects. Fasting C3 is associated with waist circumference, but postprandial C3 increment is associated with postprandial lipemia. Fasting and postprandial C3 concentrations decrease after treatment with simvastatin.
Plasma concentrations of the third complement component (C3) predict the risk of myocardial infarction. Because chylomicrons stimulate C3 production by adipocytes in vitro, we investigated plasma C3 changes in vivo after an oral fat load. Thirty-seven subjects (20 normolipidemic patients with coronary artery disease [CAD] and 17 healthy control subjects) underwent an oral fat load (50 g/m(2)). C3 was measured at baseline and at 2-hour intervals after fat intake for 10 hours. The effects of lipid lowering by simvastatin were evaluated in 16 patients. Fasting plasma C3 was 1.06+/-0.26 and 0.90+/-0.12 g/L in CAD patients and control subjects, respectively. Fasting C3 was correlated with several parameters associated with insulin resistance. The best determinant of fasting C3 was waist circumference (adjusted R(2)=0.48, beta=0.71, P<0.001); the addition of postprandial triglyceridemia to the model improved it (adjusted R(2)=0.63). Plasma C3 levels at 2, 4, and 6 hours after fat ingestion were significantly higher than fasting levels in patients and control subjects. C3 increased maximally to 1.39+/-0.33 g/L in patients and to 1.11+/-0.18 g/L in control subjects (P<0.01 for patients versus control subjects). Total postprandial triglyceridemia was the best determinant of maximal C3 increase (adjusted R(2)=0.47, beta=0.70; P<0.001). Treatment with simvastatin decreased fasting and postprandial C3 by 6% and 39%, respectively (P<0.05 for both versus no treatment). Postprandial plasma C3 concentrations increase in CAD patients and control subjects. Fasting C3 is associated with waist circumference, but postprandial C3 increment is associated with postprandial lipemia. Fasting and postprandial C3 concentrations decrease after treatment with simvastatin.Plasma concentrations of the third complement component (C3) predict the risk of myocardial infarction. Because chylomicrons stimulate C3 production by adipocytes in vitro, we investigated plasma C3 changes in vivo after an oral fat load. Thirty-seven subjects (20 normolipidemic patients with coronary artery disease [CAD] and 17 healthy control subjects) underwent an oral fat load (50 g/m(2)). C3 was measured at baseline and at 2-hour intervals after fat intake for 10 hours. The effects of lipid lowering by simvastatin were evaluated in 16 patients. Fasting plasma C3 was 1.06+/-0.26 and 0.90+/-0.12 g/L in CAD patients and control subjects, respectively. Fasting C3 was correlated with several parameters associated with insulin resistance. The best determinant of fasting C3 was waist circumference (adjusted R(2)=0.48, beta=0.71, P<0.001); the addition of postprandial triglyceridemia to the model improved it (adjusted R(2)=0.63). Plasma C3 levels at 2, 4, and 6 hours after fat ingestion were significantly higher than fasting levels in patients and control subjects. C3 increased maximally to 1.39+/-0.33 g/L in patients and to 1.11+/-0.18 g/L in control subjects (P<0.01 for patients versus control subjects). Total postprandial triglyceridemia was the best determinant of maximal C3 increase (adjusted R(2)=0.47, beta=0.70; P<0.001). Treatment with simvastatin decreased fasting and postprandial C3 by 6% and 39%, respectively (P<0.05 for both versus no treatment). Postprandial plasma C3 concentrations increase in CAD patients and control subjects. Fasting C3 is associated with waist circumference, but postprandial C3 increment is associated with postprandial lipemia. Fasting and postprandial C3 concentrations decrease after treatment with simvastatin.
Author de Jaegere, P.P.T.
Erkelens, D. W.
van Dijk, H.
Plokker, H.W.M.
Castro Cabezas, M.
Halkes, C.J.M.
van derHelm, Y.
AuthorAffiliation From the Department of Vascular Medicine (C.J.M.H., Y.v.d.H., D.W.E., M.C.C.), the Department of Clinical Immunology (H.v.D.), and the Department of Cardiology (P.P.T.d.J.), University Medical Center Utrecht, Utrecht, the Netherlands, and the Department of Cardiology (H.W.M.P.), St. Antonius Hospital Nieuwegein, Nieuwegein, the Netherlands
AuthorAffiliation_xml – name: From the Department of Vascular Medicine (C.J.M.H., Y.v.d.H., D.W.E., M.C.C.), the Department of Clinical Immunology (H.v.D.), and the Department of Cardiology (P.P.T.d.J.), University Medical Center Utrecht, Utrecht, the Netherlands, and the Department of Cardiology (H.W.M.P.), St. Antonius Hospital Nieuwegein, Nieuwegein, the Netherlands
Author_xml – sequence: 1
  givenname: C.J.M.
  surname: Halkes
  fullname: Halkes, C.J.M.
  organization: From the Department of Vascular Medicine (C.J.M.H., Y.v.d.H., D.W.E., M.C.C.), the Department of Clinical Immunology (H.v.D.), and the Department of Cardiology (P.P.T.d.J.), University Medical Center Utrecht, Utrecht, the Netherlands, and the Department of Cardiology (H.W.M.P.), St. Antonius Hospital Nieuwegein, Nieuwegein, the Netherlands
– sequence: 2
  givenname: H.
  surname: van Dijk
  fullname: van Dijk, H.
– sequence: 3
  givenname: P.P.T.
  surname: de Jaegere
  fullname: de Jaegere, P.P.T.
– sequence: 4
  givenname: H.W.M.
  surname: Plokker
  fullname: Plokker, H.W.M.
– sequence: 5
  givenname: Y.
  surname: van derHelm
  fullname: van derHelm, Y.
– sequence: 6
  givenname: D.
  surname: Erkelens
  middlename: W.
  fullname: Erkelens, D. W.
– sequence: 7
  givenname: M.
  surname: Castro Cabezas
  fullname: Castro Cabezas, M.
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1524-4636
IngestDate Mon Sep 08 10:55:53 EDT 2025
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Issue 9
Keywords Human
Load
Enzyme
Postprandial
Complement C3
Treatment efficiency
Simvastatin
Oral administration
Enzyme inhibitor
Cardiovascular disease
Exploration
Lipids
Statin derivative
Coronary heart disease
Chemotherapy
Treatment
Hydroxymethylglutaryl-CoA reductase
Oxidoreductases
Dose
Antilipemic agent
Language English
License CC BY 4.0
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Hagerstown, MD
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PublicationTitle Arteriosclerosis, thrombosis, and vascular biology
PublicationTitleAlternate Arterioscler Thromb Vasc Biol
PublicationYear 2001
Publisher American Heart Association, Inc
Lippincott
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  publication-title: Arterioscler Thromb Vasc Biol
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Snippet Plasma concentrations of the third complement component (C3) predict the risk of myocardial infarction. Because chylomicrons stimulate C3 production by...
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SubjectTerms Apolipoproteins B - blood
Area Under Curve
Biological and medical sciences
Cardiovascular system
Complement C3 - metabolism
Coronary Artery Disease - blood
Fasting
Female
Humans
Hypolipidemic Agents - administration & dosage
Hypolipidemic Agents - pharmacology
Insulin Resistance
Male
Medical sciences
Middle Aged
Miscellaneous
Pharmacology. Drug treatments
Postprandial Period
Simvastatin - administration & dosage
Simvastatin - pharmacology
Triglycerides - blood
Title Postprandial Increase of Complement Component 3 in Normolipidemic Patients With Coronary Artery Disease: Effects of Expanded-Dose Simvastatin
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