Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The critical initiating event in atherogenesis involves the invasion of monocytes through the endothelial wall of arteries, and their transformation from macrophages into foam cells. Human THP-1 monocytic cells can be induced to differentiate into macrophages by phorbol myristate acetate (PMA) treatment, and can then be converted into foam cells by exposure to oxidized low-density lipoprotein (oxLDL). To define genes that are specifically expressed during the transformation of macrophages into foam cells, we have performed a subtractive library screening utilizing mRNA isolated from THP-1 macrophages and foam cells. From this analysis, we have identified adipocyte lipid binding protein (ALBP/aP2) as a gene that is highly upregulated in foam cells in response to oxLDL. Furthermore, overexpression the ALBP gene using an adenovirus construct enhanced the accumulation of cholesterol ester in macrophage foam cells, probably due to an increase in transcription since oxLDL enhanced ALBP promoter activity in experiments using a promoter-luciferase reporter gene construct. The induction of ALBP by oxLDL probably involved activation of peroxisome proliferator-activated receptor gamma (PPARgamma) transcription factors, since four different endogenous PPARgamma ligands, including 9-hydroxyoctadecadienoic acid (9-HODE) and 13-hydroxyoctadecadienoic acid (13-HODE), two oxidized lipid components of oxLDL, as well as 15-deoxy-delta12,14 prostaglandin J2 (15d-PGJ2) and retinoic acid (RA), all induced ALBP expression in macrophage/foam cells. Finally, ALBP was found to be highly expressed in vivo in macrophage/foam cells of human atherosclerotic plaques. These observations suggest that oxLDL-mediated increase in ALBP gene expression accelerate cholesterol ester accumulation, and that this is an important component of the genetic program regulating conversion of macrophages to foam cells. The observation that ALBP is readily detected in foam cells in active atherosclerotic lesions implicates a role for ALBP in human vascular disease. The induction of ALPB expression by oxLDL likely involves activation of PPARgamma by components of oxLDL (9-HODE and 13-HODE) that also function as PPARgamma ligands. Our results add to the concern that the clinical use of insulin-sensitizing PPARgamma agonists (i.e. thiazolidinediones) to treat Type 2 Diabetes could exacerbate atherosclerosis, and highlight the need for clinical trials that address this issue.
Atherosclerosis 2002 Dec
PMID:The adipocyte lipid binding protein (ALBP/aP2) gene facilitates foam cell formation in human THP-1 macrophages. 1241 76

The critical initiating event in atherogenesis involves the invasion of monocytes through the endothelial wall of arteries, and their transformation from macrophages into foam cells. Human THP-1 monocytic cells can be induced to differentiate into macrophages by phorbol myristate acetate (PMA) treatment, and can then be converted into foam cells by exposure to oxidized low-density lipoprotein (oxLDL). We previously reported that adipocyte lipid binding protein (ALBP/aP2) is a gene that is highly up-regulated in foam cells in response to oxLDL. Here, we showed that overexpression of the ALBP gene using a lentiviral construct in macrophage foam cells enhanced the accumulations of cholesterol and triglyceride, probably due to an increased expression of the scavenger receptor type AI (SR-AI), which plays an important role in cell lipid metabolism. Moreover, we determined that the expression of acyl-coenzyme A: cholesterol-acyltransferase 1 (ACAT1) gene was up-regulated by the overexpression of ALBP gene, and on the other hand, the ATP-binding cassette A1 (ABCA1) gene and hormone sensitive lipase (HSL) gene, which mediate separately cholesterol efflux and cholesterol ester hydrolysis in the macrophage cells, were down-regulated by the overexpression of ALBP gene in these cells. Finally, our data indicated that oxLDL regulates expression of ALBP related to two peroxisome proliferator-responsive elements (PPREs) which are located in ALBP promoter region. These results have determined that ALBP gene expression accelerates cholesterol and triglyceride accumulation in macrophage foam cells and affects some key gene expression for lipid metabolism, suggesting some pivotal roles of ALBP in lipid metabolism for macrophage foam cell formation.
Atherosclerosis 2006 Sep
PMID:Lipid metabolism mediated by adipocyte lipid binding protein (ALBP/aP2) gene expression in human THP-1 macrophages. 1631 11

Adipocyte fatty-acid-binding protein, aP2 (FABP4) is expressed in adipocytes and macrophages, and integrates inflammatory and metabolic responses. Studies in aP2-deficient mice have shown that this lipid chaperone has a significant role in several aspects of metabolic syndrome, including type 2 diabetes and atherosclerosis. Here we demonstrate that an orally active small-molecule inhibitor of aP2 is an effective therapeutic agent against severe atherosclerosis and type 2 diabetes in mouse models. In macrophage and adipocyte cell lines with or without aP2, we also show the target specificity of this chemical intervention and its mechanisms of action on metabolic and inflammatory pathways. Our findings demonstrate that targeting aP2 with small-molecule inhibitors is possible and can lead to a new class of powerful therapeutic agents to prevent and treat metabolic diseases such as type 2 diabetes and atherosclerosis.
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PMID:Treatment of diabetes and atherosclerosis by inhibiting fatty-acid-binding protein aP2. 1755 40

Elevated circulating fatty acids are associated with impaired insulin action and inflammation. During intracellular transit, fatty acids use fatty acid-binding proteins (FABPs) as shuttles. A recent study (Furuhashi et al., 2007) explores inhibiting FABP4/aP2 as a strategy for treating atherosclerosis and type 2 diabetes.
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PMID:Blocking fatty acids' mystery tour: a therapy for metabolic syndrome? 1768 Nov 41

The aim of our work was to develop an assay for the determination of angiopoietin-like protein 3 (Angptl3) in human blood, and investigate its levels in healthy volunteers and donors suffer from metabolic syndrome and familiar hypercholesterolemia. We developed and evaluated the sandwich ELISA method for the quantitative determination of human Angptl3 in serum samples. We conducted also the pilot study on individuals with metabolic syndrome or familiar hypercholesterolemia and healthy probands. The following parameters were measured: blood pressure, waist circumference, Angptl3 serum levels, serum cholesterol, triglycerides, HDL-cholesterol, LDL-cholesterol, insulin, glucose, A-FABP, and BMI and Quicki insulin sensitivity index was calculated. In the study on 93 healthy volunteers we demonstrated that sex or age is not the determinant for Angptl3 serum values. Futhermore, 118 individuals with metabolic syndrome and 200 patients with familiar hypercholesterolemia were tested and it was found that probands with metabolic syndrome or familiar hypercholesterolemia had higher Angptl3 values than healthy individuals from the first study (medians 289.5 vs. 277.1 vs. 224.8 ng/ml, p < 0.01). All of groups did not differ in sex or age. Angptl3 values correlated with the systolic blood pressure, LDL and A-FABP (p < 0.05). No connection of Angptl3 with triglycerides was found (presumably influences of statins, fibrates via PPARs, etc). However, we performed stepwise regression and found A-FABP and Angptl3 serum values as the independent markers for metabolic syndrome presence only (F ratio 29, p < 0.01). Then we adjusted Angptl3 to A-FABP (reputable metabolic syndrome marker) and recognised that Angptl3 is the A-FABP-independent marker. The pilot study supports the hypothesis about the role of Angptl3 as a new class of lipid metabolism modulator. Their values could be a new key predictors of metabolic syndrome. Further research is necessary to confirm our findings in individuals with dyslipidemia, obesity, CAD and different medication in order to assess Angptl3 value as a risk predictor of accelerated atherosclerosis.
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PMID:Angiopoietin-like protein 3: development, analytical characterization, and clinical testing of a new ELISA. 1806 51

The aim of our work was to develop an assay for the determination of angiopoietin-like protein 4 (Angplt4) in human blood, and to investigate its levels in healthy volunteers and donors suffer from metabolic syndrome. We developed and evaluated the sandwich ELISA method for the quantitative determination of human Angplt4 in serum samples. We conducted also the pilot study on individuals with metabolic syndrome or familiar hypercholesterolemia and healthy probands and measured blood pressure, waist circumference, Angplt4 serum levels, serum cholesterol, triglycerides, HDL-cholesterol, LDL-cholesterol, insulin, glucose, A-FABP and calculate BMI and QUICKI insulin sensitivity index. In the study on 30 healthy volunteers we demonstrated that sex or age is not the determinant for Angplt4 serum values. Furthermore, we tested 115 individuals with metabolic syndrome and found that probands with metabolic syndrome did not differ in Angplt4 values than healthy individuals from the first study (medians 8.7 vs. 8.1 ng/ml, p = 0.6). Individuals with metabolic syndrome did not differ in sex or age from healthy. Angplt4 values correlated with the HDL-cholesterol (r = -0.25; p < 0.01), FGF-21 (r = 0.23, p < 0.01), glucose (r = 0.17; p = 0.03), uric acid (r = 0.17; p = 0.49), lipocalin-2 (r = 0.23, p < 0.01), triacylglycerols (r = 0.25; p < 0.01) and number or characters of metabolic syndrome (r = 0.21; p < 0.01). No significant correlation was found between serum Angplt4 and BMI, WC or QUICKI. However, we performed stepwise regression and we found that Angplt4 was not an independent marker for metabolic syndrome. The patients from the metabolic syndrome group suffering diabetes mellitus (n = 83) did not differ in serum Angplt4 from the group of healthy patients, too. The pilot study supports the hypothesis about the role of Angplt4 as a new class of lipid metabolism modulator. Their values could be a new key predictors of metabolic syndrome. Further research is necessary to confirm our findings in individuals with dyslipidemia, obesity, coronary artery diseases and different medication in order to assess Angplt4 value as a risk predictor of accelerated atherosclerosis.
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PMID:Angiopoietin-like protein 4: development, analytical characterization, and clinical testing of a new ELISA. 1843 85

Much experimental evidence supports a protective role of dietary flavonoids against cardiovascular diseases. The aim of the present study was to investigate the anti-atherosclerotic effects of catechin supplemented in the diet of apoE deficient mice at a low nutritional level and to explore the mechanisms of action by a transcriptomic approach. After 6 weeks of supplementation, atherosclerotic lesions were assessed by histomorphometry and several markers of lipid, inflammation and oxidative stress status were evaluated. Analysis of the global gene expression in the aorta was carried out using pangenomic arrays. Catechin supplementation reduced the mean atherosclerotic lesion area by 32% but had no effect on total cholesterol and triacylglycerol levels in the plasma and the liver. The plasma antioxidant capacity (FRAP) and inflammatory status (serum amyloid A) were unchanged. The expression of 450 genes was significantly modified by catechin supplementation. Some of the most significantly down-regulated genes included genes coding for adhesion molecules such as CD34 and PSGL-1 known to play a key role in leukocyte adhesion to the endothelium. Other genes involved in energy metabolism, lipid metabolism and lipids trafficking such as FABP4, LPL and SCARA5 were down-regulated and may contribute to the atheroprotective effect of catechin. This work shows that transcriptomic allows characterizing the biological effects of low doses of flavonoids where common markers were not significantly affected.
Atherosclerosis 2009 Jun
PMID:Catechin reduces atherosclerotic lesion development in apo E-deficient mice: a transcriptomic study. 1915 14

Molecular disruption of the lipid carrier AFABP/aP2 in mice results in improved insulin sensitivity and protection from atherosclerosis. Because small molecule inhibitors may be efficacious in defining the mechanism(s) of AFABP/aP2 action, a chemical library was screened and identified 1 (HTS01037) as a pharmacologic ligand capable of displacing the fluorophore 1-anilinonaphthalene 8-sulfonic acid from the lipid binding cavity. The X-ray crystal structure of 1 bound to AFABP/aP2 revealed that the ligand binds at a structurally similar position to a long-chain fatty acid. Similar to AFABP/aP2 knockout mice, 1 inhibits lipolysis in 3T3-L1 adipocytes and reduces LPS-stimulated inflammation in cultured macrophages. 1 acts as an antagonist of the protein-protein interaction between AFABP/aP2 and hormone sensitive lipase but does not activate PPARgamma in macrophage or CV-1 cells. These results identify 1 as an inhibitor of fatty acid binding and a competitive antagonist of protein-protein interactions mediated by AFABP/aP2.
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PMID:Identification and characterization of a small molecule inhibitor of Fatty Acid binding proteins. 1975 98

Adipocypte fatty acid-binding protein-4 (FABP4/adipocyte P2) may play a central role in energy metabolism and inflammation. In animal models, defects of the aP2 gene (aP2(-/-)) partially protected against the development of obesity-related insulin resistance, dyslipidemia, and atherosclerosis. However, it is unclear whether common genetic variation in FABP4 gene contributes to risk of type 2 diabetes (T2D) or diabetes-related metabolic traits in humans. We comprehensively assess the genetic associations of variants in the FABP4 gene with T2D risk and diabetes-associated biomarkers in a prospective study of 1,529 cases and 2,147 controls among postmenopausal women aged 50-79 years who enrolled in the Women's Health Initiative Observational Study (WHI-OS). We selected and genotyped a total of 11 haplotype-tagging single-nucleotide polymorphisms (tSNPs) spanning 41.3 kb across FABP4 in all samples. None of the SNPs and their derived haplotypes showed significant association with T2D risk. There were no significant associations between SNPs and plasma levels of inflammatory and endothelial biomarkers, including C-reactive protein, tumor necrosis factor (TNF), interleukin-6 (IL-6), E-selectin, and intercellular adhesion molecule (ICAM-1). Among African-American women, several SNPs were significantly associated with lower levels of vascular cell adhesion molecule-1 (VCAM-1), especially among those with incident T2D. On average, plasma levels of VCAM-1 were significantly lower among carriers of each minor allele at rs1486004(C/T; -1.08 ng/ml, P = 0.01), rs7017115(A/G; -1.07 ng/ml, P = 0.02), and rs2290201(C/T; -1.12 ng/ml, P = 0.002) as compared with the homozygotes of the common allele, respectively. After adjusting for multiple testing, carriers of the rs2290201 minor allele remained significantly associated with decreasing levels of plasma VCAM-1 in these women (P = 0.02). In conclusion, our finding from a multiethnic cohort of postmenopausal women did not support the notion that common genetic variants in the FABP4 gene may trigger increased risk of T2D. The observed significant association between reduced VCAM-1 levels and FABP4 genotypes in African-American women warrant further confirmation.
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PMID:Common genetic variants in fatty acid-binding protein-4 (FABP4) and clinical diabetes risk in the Women's Health Initiative Observational Study. 2011 Oct 20

In this study, a series of small molecule inhibitors of human FABP4 were identified through virtual screening. Compound 1 is the most potent hit against FABP4 with a selectivity of more than 144-fold preferences over human FABP3. In addition, MD simulation and mutation studies revealed key residues for inhibitory potency and selectivity, which provides a guideline for further drug design against obesity, diabetes and atherosclerosis.
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PMID:Discovery of highly selective inhibitors of human fatty acid binding protein 4 (FABP4) by virtual screening. 2047 Dec 52


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