UMLS:C0004153 - FACTA Search

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)

Increased oxidative stress is a characteristic of patients with high risk for atherosclerosis development (hypercholesterolemic, hypertensive, diabetic), and the above phenomenon was shown to be associated with attenuated antioxidative status. The increased oxidative stress in atherosclerotic patients is present in their blood, as well as in their arterial wall cells, including macrophages, the hallmark of foam cells formation during early atherogenesis. Serum high density lipoprotein (HDL)-associated paraoxonase 1 (PON1) reduces oxidative stress in lipoproteins, in macrophages, and in the atherosclerotic lesion, whereas paraoxonase 2 (PON2, which is present in tissues, but not in serum) acts as an antioxidant at the cellular and not humoral level. Both PON1 and PON2 protect against atherosclerosis development, and this phenomenon could be related to their antioxidative properties. The use of nutritional antioxidants such as vitamin E, carotenoids (lycopene and beta-carotene), and mainly polyphenols (such as those present in red wine, licorice root ethanolic extract, or in pomegranate) by atherosclerotic animals and also by cardiovascular patients, leads to a reduction in oxidative stress and to the attenuation of atherosclerosis development. These latter phenomena could be related to the nutritional antioxidants-induced increase in HDL PON1 activity (effects on gene expression, on preventing enzyme inactivation, and on increasing PON1 stability through its binding to HDL), as well as an increase in macrophage PON2 activation (at the gene expression level).
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PMID:Paraoxonases role in the prevention of cardiovascular diseases. 1931 52

The paraoxonase (PON) gene cluster consists of the PON1, PON2, and PON3 genes, each of which can individually inhibit atherogenesis. To analyze the functions of the PON gene cluster (PC) in atherogenesis and plaque stability, human PC transgenic (Tg) mice were generated using bacterial artificial chromosome. The high-density lipoprotein from Tg mice exhibited increased paraoxonase activity. When crossed to the ApoE-null background and challenged by high-fat diet, PC Tg/ApoE-null mice formed significantly fewer atherosclerotic lesions. However overexpression of the PC transgene had no additive effect on atherosclerosis compared to the overexpression of the single PON1 or PON3 transgene. Plaques from PC Tg/ApoE-null mice exhibited increased levels of collagen and smooth muscle cells, and reduced levels of macrophages and lipid, compared with those from ApoE-null mice, indicating lesions of PC Tg/ApoE-null mice had characteristics of more stable plaques than those of ApoE-null mice. PC transgene enhanced high-density lipoprotein ability to protect low-density lipoprotein against oxidation in vitro. Serum intercellular adhesion molecule-1 and monocyte chemoattractant protein-1 were also repressed by PC transgene. Proatherogenic reactions of Tg mouse peritoneal macrophages induced by oxidized low-density lipoprotein were inhibited by PC transgene, as indicated by reduced reactive oxygen species generation, inflammation, matrix metalloproteinase-9 expression, and foam cell formation. Our results demonstrate that the PC transgene not only represses atherogenesis but also promotes atherosclerotic plaque stability in vivo. PC may therefore be a useful target for atherosclerosis treatment.
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PMID:Human paraoxonase gene cluster transgenic overexpression represses atherogenesis and promotes atherosclerotic plaque stability in ApoE-null mice. 1935

To understand whether human paraoxonase 1 (PON1) would modulate the risk for arsenic-related atherosclerosis, we studied 196 residents from an arseniasis-endemic area in Southwestern Taiwan and 291 age- and sex-matched residents from a nearby control area where arsenic exposure was found low. Carotid atherosclerosis was defined by a carotid artery intima-media wall thickness (IMT) of >1.0 mm. Prevalence of carotid atherosclerosis was increased in the arseniasis-endemic area as compared to the control area after adjustment for conventional risk factors (OR=2.20, p<0.01). The prevalence was positively associated with cumulative arsenic exposure (mg/L-year) in a dose-dependent manner. Multiple logistic regression analysis showed that in the endemic group, low serum PON1 activity was an independent risk factor for atherosclerosis (OR=4.18 low vs. high, p<0.05). For those of low PON1 activity and high cumulative arsenic exposure, the odds ratio for the prevalence of atherosclerosis was further increased up to 5.68 (p<0.05). No significant association was found between atherosclerosis and four polymorphisms of the PON gene cluster (PON1 -108C/T, PON1 Q192R, PON2 A148G, PON2 C311S). However, genetic frequencies of certain alleles including PON1 Q192, PON2 G148 and PON2 C311 were found increased in the endemic group as compared to the controls and a general Chinese population, indicating a possible survival selection in the endemic group after a long arsenic exposure history. Our results showed a significant joint effect between arsenic exposure and serum PON1 activity on carotid atherosclerosis, suggesting that subjects of low PON1 activity may be more susceptible to arsenic-related cardiovascular disease.
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PMID:Risk of carotid atherosclerosis is associated with low serum paraoxonase (PON1) activity among arsenic exposed residents in Southwestern Taiwan. 1937 7

It is well known that oxidative stress plays an important role in atherosclerosis and age-related diseases. The antioxidant properties of the Human Paraoxonase gene family (PON1, 2, 3) have been widely investigated, as well as a possible role of the such gene family in cardiovascular disease. In this study, we investigated the relationship between the C311S PON2 polymorphism and the prognosis of acute myocardial infarction (AMI). We analyzed the PON2 C311S polymorphism in 442 elderly patients who had experienced an AMI. PON2 C311S genotypes were identified by PCR based analysis and analyzed as C- (SS genotype) or C+ (CS+CC) carriers. After 1 year of follow-up, the cardiovascular mortality rate in a sub-group of 295 AMI patients was calculated. We found that AMI patients carrying CS+CC genotypes (C+ carriers) had a history of type 2 diabetes mellitus, low levels of HDL-cholesterol and higher levels of TroponinT (TnT). Furthermore, we found that C+ carrier patients with low levels of HDL-cholesterol had an increased risk for mortality after 1 year of follow-up (Log Rank=11.45, p=0.001). Our study suggests a possible role for PON2 C311S polymorphism in the pathogenesis of cardiac ischemic damage. Patients with at least one C allele (C+ carriers) represent a category of subjects at a higher risk for the development of AMI with a worse prognosis. Our findings suggest the need for a more careful clinical monitoring in older persons with such characteristics.
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PMID:Paraoxonase2 C311S polymorphism and low levels of HDL contribute to a higher mortality risk after acute myocardial infarction in elderly patients. 1954 Jan 41

Paraoxonases (PONs) are a family of lactonases with promiscuous enzyme activity that has been implicated in multiple diseases. PON2 is intracellularly located, is the most ubiquitously expressed PON, and has the highest lactonase activity of the PON family members. Whereas some single-nucleotide polymorphisms (SNPs) in PON1 have resulted in altered enzymatic activity in serum, to date the functional consequences of SNPs on PON2 function remain unknown. We hypothesized that a common PON2 SNP would result in impaired lactonase activity. Substitution of cysteine for serine at codon 311 in recombinant PON2 resulted in normal protein production and localization but altered glycosylation and decreased lactonase activity. Moreover, we screened 200 human lung samples for the PON2 Cys(311) variant and found that in vivo this mutation impaired lactonase activity. These data suggest that impaired lactonase activity may play a role in innate immunity, atherosclerosis, and other diseases associated with the PON2 311 SNP.
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PMID:A common mutation in paraoxonase-2 results in impaired lactonase activity. 1984 Sep 42

Paraoxonases (PONs) i.e. PON1, PON2, PON3 are basically lactonases. Of these, PON1 in addition has an efficient esterase activity and can hydrolyze organophosphates. The PONs prevent low density lipoprotein cholesterol (LDL-C) from peroxidation, thereby preventing atherosclerosis. The PON1 is exclusively associated with high density lipoprotein cholesterol (HDL-C) and its antioxidant activity is largely attributed to PON1 located on it. At present, PON1 status i.e. its activity and concentration, is considered to be more important than polymorphism alone, in prevention of coronary artery disease (CAD). Its activity has been found to be affected by a number of pharmacological agents, diet and other factors, thereby becoming a promising target for pharmacological intervention. The PON2 prevents cell mediated lipid peroxidation. However, little is known about the role of PON3. This review describes the structure, gene polymorphism, and factors affecting the activity of PONs, and their role in prevention of CAD.
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PMID:Paraoxonases: structure, gene polymorphism & role in coronary artery disease. 1994 38

Paraoxonase 1 (PON1) is a member of a three-gene family (PON1, PON2, and PON3). PON1 activity dominates in human plasma. It is secreted from hepatic cells and is found in the circulation bound to high-density lipoproteins (HDLs). For many years it has been known only for its ability to hydrolyze organophosphate derivatives. More recently, PON1's antioxidant activity draws attention as the enzyme was described to prevent oxidation of lipoproteins by reactive oxygen species formed during oxidative stress. PON1 was also shown to hydrolyze atherogenic products of oxidative lipid modification such as phospholipid peroxides and cholesterol ester hydroperoxides. Some studies indicate that the enzyme presents a lipolactonase activity and hydrolyzes homocysteine thiolactone (HCTL). There is growing evidence as to PON1's protective role in atherosclerosis. Genetic (PON1 polymorphism) and environmental factors and lifestyle may influence PON1 blood concentration and biological activity. Among the many recognized factors accounting for lifestyle, physical activity plays an important role. Various, often opposite, effects on PON1 status are observed in regular training and single physical activities. The results of different studies are often contradictory. It may depend on the time, intensity, and frequency of physical activity. Additionally, it seems that the effects of physical activity on PON1 blood concentration and activity are modified by environmental and lifestyle factors as well as PON1 polymorphism.
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PMID:The role of genetic (PON1 polymorphism) and environmental factors, especially physical activity, in antioxidant function of paraoxonase. 2009 53

PON3 is a member of the paraoxonase gene family that includes PON1 and PON2. For example, PON3 and PON1 share approximately 60% identity at the amino acid level. Recent studies have demonstrated that PON3 is present in human and rabbit HDL but not in mouse HDL. Mouse PON3 appears to be cell-associated and is expressed in a wide range of tissues such as liver, adipose, macrophage, and the artery wall. In vitro studies have shown that PON3 can prevent LDL oxidation and destroy bacterial quorum-sensing molecules. Previous studies also showed that human PON3 transgenic mice were protected from obesity and atherosclerosis in both the C57BL/6 J wild-type and LDLR knockout genetic background. Administration of adenovirus expressing the human PON3 gene into apoE -/- mice also decreased atherosclerotic lesion formation. In order to further understand the functions of PON3 in physiology and disease, we performed in situ hybridization analysis to examine Pon3 gene expression patterns in newborn and adult mice, in various tissues, including atherosclerotic lesions of apoE -/- mice. Our results show relatively high levels of Pon3 mRNA labeling in the adrenal gland, submaxillary gland, lung, liver, adipose, pancreas, large intestine, and other tissues of newborn mice. In the adult mouse, Pon3 mRNA levels were much lower in the corresponding tissues as mentioned above for the newborn mouse. Sections of the aortic root from the hearts of both wild-type and apoE -/- mice displayed moderate levels of Pon3 mRNA labeling. Pon3 mRNA was also detected in the atherosclerotic lesion areas at the aortic root of apoE -/- hearts. Our data revealed that mouse Pon3 is expressed in a wide range of tissues, and that its expression is temporally controlled.
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PMID:Temporal and tissue-specific patterns of Pon3 expression in mouse: in situ hybridization analysis. 2022 72

Extract: Owing to their detoxifying functions, and roles in drug metabolism as well as the prevention of atherosclerosis, mammalian or serum paraoxonases (PONs) are an intriguing subject of research and a prime therapeutic and engineering target. Initially identified in mammals, PON and PON-related genes have now been found in fowls, zebra fish, and even in invertebrates such as C. elegans. The more closely-related PON genes are divided into three classes or sub-families: PON1, PON2 and PON3, that share 60-70% sequence identity. PONs are calcium-dependent hydrolases that catalyze the hydrolysis of a broad range of esters and lactones. PON1, which is by far the most investigated member of this family, also catalyzes, albeit at much lower rates, the hydrolysis and thereby inactivation of various organophosphates (OPs), including the nerve agents sarin and soman. PON1 is also involved in drug metabolism and is used for drug inactivation. In recent years, it has become apparent that PONs also play an important role in the prevention of atherosclerosis. The levels of PON1 in the blood and its catalytic proficiency appear to have a major impact both on the individual's susceptibility to pollutants and insecticides, and to atherosclerosis. Furthermore, mice lacking the PON1 gene are highly susceptible to atherosclerosis and to OP poisoning. PON1 and PON3 reside in the high-density lipoprotein cholesterol-carrying particles known as HDL ("good cholesterol"). HDL has two key roles: mediation of cholesterol efflux, e.g., from macrophage foam cells in atherosclerotic lesions, and limitation of lipid oxidation in LDL. PONs have been implicated in both activities.
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PMID:Directed evolution of recombinant serum paraoxonase (PON) variants. 2070 7

The paraoxonase (PON) gene family is composed of three members (PON1, PON2, PON3) that share considerable structural homology and are located adjacently on chromosome 7 in humans. By far the most-studied member is PON1, a high-density lipoprotein-associated esterase/lactonase, also endowed with the capacity to hydrolyze organophosphates, but all the three proteins prevent oxidative stress and fight inflammation. They therefore seem central to a wide variety of human illnesses, including atherosclerosis, diabetes mellitus, mental disorders and inflammatory bowel disease. The major goal of this review is to highlight the regulation of each of the paraoxonase components by diverse nutritional molecules and pharmacological agents as well as a number of pathophysiological events, such as oxidative stress and inflammation. Considerable and detailed cell-based studies and animal model experiments have been provided to allow a thorough scrutiny of PON modulation, which will increase our understanding and ability to target these genes in order to efficiently increase their transcriptional activity and decrease the risks of developing different disorders.
Atherosclerosis 2011 Jan
PMID:The three-gene paraoxonase family: physiologic roles, actions and regulation. 2093 78

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