Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0007222 (cardiovascular disease)
 65,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Susceptibility to organophosphorus (OP) insecticides and nerve agents is strongly influenced by genetic and developmental factors. A number of organophosphorothioate insecticides are detoxified in part via a two-step pathway involving bioactivation of the parent compound by the cytochrome P450 systems, then hydrolysis of the resulting oxygenated metabolite (oxon) by serum and liver paraoxonases (PON1). Serum PON1 has been shown to be polymorphic in human populations. The Arg192 isoform (PON1R192) of this HDL-associated protein hydrolyzes paraoxon (POX) at a high rate, while the Gln192 isoform (PON1Q192) hydrolyzes paraoxon at a low rate. The effect of the polymorphism is reversed for the hydrolysis of diazoxon (DZO), soman and particularly sarin. Phenylacetate is hydrolyzed at approximately the same rate by both PON1 isoforms and chlorpyrifos oxon (CPO) slightly faster by the PON1R192 isoform. In addition to the effect of the amino acid substitution on rates of toxicant hydrolysis, two other factors influence these rates. The expression of PON1 is developmentally regulated. Newborns have very low levels of PON1. Adult levels in rats and mice are reached at 3 weeks of age and in humans, sometime after 6 months of age. In addition, among individuals of a given genotype, there is at least a 13-fold difference in expression of PON1 that is stable over time. Dose/response experiments with normal mice injected with purified PON1 and with PON1 knockout mice have clearly demonstrated that the observed differences of in vitro rates of hydrolysis are significant in determining differential sensitivities to specific insecticides processed through the P450/PON1 pathway. Injection of purified rabbit PON1 protects mice from cholinesterase inhibition by chlorpyrifos (CPS) and CPO. Knockout mice are much more sensitive to CPO and DZO than are their PON1+/+ littermates or wild-type mice. A number of recent reports have also indicated that the PON1R192 isoform may be a risk factor for cardiovascular disease. Studies with PON1 knockout mice are also consistent with a role of PON1 in preventing vascular disease.
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PMID:Genetic and temporal determinants of pesticide sensitivity: role of paraoxonase (PON1). 1079 89

Paraoxonase (PON1) is tightly associated with high-density lipoprotein particles and is believed to contribute to the prevention of atherosclerosis by metabolizing oxidized lipids. PON1 also hydrolyses the bioactive oxon forms of organophosphorus pesticides such as parathion, diazinon and chlorpyrifos. Two common polymorphisms have been identified in the coding sequence of human PON1: L55M and R192Q. Several previous studies have found that the presence of the PON1R192 allele raises the risk of cardiovascular disease while others found no correlation. The studies, however, have focused on the genotype of PON1 and not the expression level of the protein. We found that the PON1 expression level in plasma, as determined by the rates of paraoxon and diazoxon hydrolysis, varies widely among individuals and within a genotype. Previous studies found that individuals having Met at PON155 have lower levels of both PON1 mRNA and activity. In this study, we determined the plasma activity levels of PON1 and examined the relationships between PON155 genotype and PON1 level. As with PON1192, we found considerable overlap in activity among the PON155 genotypes. Of the 317 individuals whose PON1 status was determined in this study, 48.9% were PON1Q192 homozygotes. Analysis of the PON1QQ192 population showed that while the average PON1 activity (diazoxon hydrolysis) was 12266 U/L for PON1LL55 and 7777 U/L for PON1MM55, a given PONMM55 individual could have more than twice the activity of a PON1LL55 individual. PON1 status, which includes PON1 level as well as PON1192 genotype, may be a better predictor for cardiovascular disease or organophosphate susceptibility than PON1 genotype alone.
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PMID:Analysis of paraoxonase (PON1) L55M status requires both genotype and phenotype. 1089 14

A metabolite of homocysteine (Hcy), the thioester Hcy thiolactone, damages proteins by modifying their lysine residues which may underlie Hcy-associated cardiovascular disease in humans. A protein component of high density lipoprotein, Hcy thiolactonase (HTase) hydrolyzes thiolactone to Hcy. Thiolactonase is a product of the polymorphic PON1 gene, also involved in detoxification of organophospates and implicated in cardiovascular disease. Polymorphism in PON1 affects the detoxifying activity of PON1 in a substrate-dependent manner. However, how PON1 polymorphism affects HTase activity is unknown. Here we report a strong association between the thiolactonase activity and PON1 genotype in human populations. High thiolactonase activity was associated with L55 and R192 alleles, more frequent in blacks than in whites. Low thiolactonase activity was associated with M55 and Q192 alleles, more frequent in whites than in blacks. High thiolactonase activity afforded better protection against protein homocysteinylation than low thiolactonase activity. These results suggest that variations in HTase may play a role in Hcy-associated cardiovascular disease.
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PMID:Genetic determinants of homocysteine thiolactonase activity in humans: implications for atherosclerosis. 1122 14

Paraoxonase is an enzyme associated with the high-density lipoprotein (HDL) particle. It catalyses the hydrolysis of organophosphates and protects LDL from oxidative modification in vitro by hydrolyzing lipid peroxides, suggestive of a role for paraoxonase in the development of atherosclerosis. Two frequent mutations at the paraoxonase gene locus (PON1) underlie the leucine (Leu allele) --> methionine (Met allele) and the glutamine(Gln allele) --> arginine(Arg allele) aminoacid substitutions at residues 55 and 192, respectively. These polymorphisms have been associated with increased risk for cardiovascular disease (CVD) in several studies, while others have not found this association. Recently, another member of the PON gene family designated PON2 has been identified. While the PON2 gene product is expressed ubiquitously, its physiological role is unknown. A common polymorphism at codon 311 (Cys-->Ser) in the PON2 gene has been described. In our study we assessed the frequency and genotype distribution of the PON1 and PON2 polymorphisms in 197 patients with familial hypercholesterolemia (FH), to determine the possible association between these mutations and susceptibility for CVD. The FH cohort group was divided into subjects with (n=83) and without (n=114) definite clinical manifestations of CVD (FH-Symptomatic and FH-Asymptomatic respectively). The control population consisted of 201 healthy normolipidemic blood donors. All subjects in this study were of Caucasian background. Genotypes were identified by PCR based analysis. With regard to the PON1 polymorphisms 55 and 192, no different distributions of allele frequencies were found between the groups studied. However, we did show an association between the PON2 311 polymorphism and CVD. The frequencies of PON2 Ser311 carriers (Ser/Ser and Cys/Ser) between FH-Symptomatic and both FH-Asymptomatic and controls did show a significant difference (P=0.01 and P=0.02 respectively). In the FH-Symptomatic population, surprisingly, no subjects were homozygous for PON2 Cys311, whereas in the FH-Asymptomatic population nine persons (7.9%) and in the control group 12 persons (6.0%) were homozygous. Our data indicate that the common PON2 polymorphism is associated with clinical manifestations of CVD in FH patients. While PON2 Ser311 carriers seem to be at risk, subjects with the Cys/Cys311 genotype are likely to be protected against the development of premature CVD.
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PMID:PON2 gene variants are associated with clinical manifestations of cardiovascular disease in familial hypercholesterolemia patients. 1125 65

Trinidadians of South Asian origin have a high prevalence of cardiovascular disease and diabetes compared to Trinidadians of African origin. The degree to which these differences are related to genetic and/or environmental factors is unclear. To determine whether there might be a genetic basis for this difference in prevalence of deleterious phenotypes we examined allele frequencies for candidate genes in atherosclerosis and diabetes. We genotyped 81 consecutive neonates of African origin and 103 consecutive neonates of South Asian origin. We evaluated common polymorphisms in 11 candidate genes for atherosclerosis and diabetes. We found differences between the two subpopulations in the allele frequencies of several candidate genes, including APOE, LIPC, APOC3, PON1, PON2, and PPP1R3. However, the differences in the allele frequencies were not all consistent with the pattern of CHD expression between these two ethnic groups in adulthood. Thus, differences in genetic architecture alone may not explain the wide disparities in disease prevalence between these two subpopulations. It is very likely that environmental factors, or unmeasured genetic factors, influence the genetic susceptibility to disease in these subpopulations.
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PMID:Allele frequencies for candidate genes in atherosclerosis and diabetes among Trinidadian neonates. 1151 79

Human paraoxonase (PON1) is a calcium-dependent esterase exclusively bound to apolipoprotein A-I and clusterin, containing high-density lipoprotein (HDL) particles that hydrolyzes organophosphates and aryl esters. Several studies have indicated that PON1 can prevent low-density lipoprotein (LDL) oxidation by hydrolyzing lipid peroxides in the lipoprotein, which is the crucial first step for atherogenesis. Therefore it may protect against the development of atherosclerosis. Serum PON1 activity has been shown to be decreased in familiar hypercholesterolemia and in diseases that are associated with accelerated atherogenesis. The PON1 gene has two common coding region polymorphisms, Leu55-->Met and Gln192-->Arg. Both polymorphisms have been identified as independent risk factors for cardiovascular disease in diabetic and non-diabetic patients. We have established high-speed and easy-to-perform genotyping for the two most significant PON1 gene polymorphisms, employing the LightCycler technology and melting curves. This technique eliminates PCR contamination related to sample handling and does not require digestion of PCR products with restriction enzymes and/or fragment separation on gels.
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PMID:High-speed detection of the two common paraoxonase polymorphisms Leu55-->Met and Gln192-->Arg by real-time fluorescence PCR and melting curves. 1205 71

Human serum paraoxonase (PON1) is an HDL-associated enzyme involved in the protection of lipoproteins from oxidation. A polymorphism at position 192 (Gln/Arg) influences its activity in a substrate-dependent manner. The aim of the present study was to evaluate, in vivo, the contribution of the PON1-192 polymorphism to the protective effect of HDLs. Three hundred and forty seven subjects in the upper and lower decile of sex-specific HDL cholesterol distribution were selected from participants in a cardiovascular disease prevention study. PON1 genotypes were determined by PCR amplification and restriction analysis. Blood pressure, height, weight, smoking and alcohol habits, as well as the presence of familial or personal history of CHD were recorded. Plasma lipids and blood glucose were measured by routine enzymatic methods. As a measure of antiatherogenic HDL effect, carotid atherosclerosis was assessed by ultrasonography. Allele and genotype frequencies did not differ significantly between low- and high-HDL groups. Similarly, no significant difference was observed among genotypes in all variables studied. Subjects with Gln/Arg or Arg/Arg had more carotid abnormalities than Gln/Gln with an adjusted odds ratio (OR) of 3.27 (95% CI, 1.61-6.64, P=0.001) for abnormal carotid score. Stepwise logistic regression analysis showed that in the whole population age and presence of low-HDL were the only independent predictors for abnormal carotid score. In low-HDL, age was the only independent predictor entered into the model (OR 1.09/year, P<0.0001); in high-HDL, age entered first (OR, 1.07/year, P=0.001), followed by the presence of Gln/Arg or Arg/Arg (OR, 2.94, 95% CI, 1.47-5.91, P=0.002). In conclusion, in subjects with low levels of HDL cholesterol, carotid atherosclerosis is not related to PON1-192 polymorphism. On the other hand, in subjects with elevated concentration of HDL cholesterol, the presence of carotid atherosclerosis is significantly associated with the arginine variant in position 192 of the PON1 gene.
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PMID:The Arg allele in position 192 of PON1 is associated with carotid atherosclerosis in subjects with elevated HDLs. 1220

Cardiac death from atherosclerosis is common in patients undergoing hemodialysis. Although the enzymic activity of human serum paraoxonase (PON1) has been reported to be decreased in such patients, serum PON1 concentrations have not been measured. We investigated serum PON1 concentrations in 81 patients undergoing hemodialysis and 103 age-matched healthy subjects using an enzyme immunoassay. The PON1 concentration was significantly lower in the patient group than the control group (mean +/- SD: 6.78 +/- 3.56 vs 18.01 +/- 4.55 U/ml, respectively. p < 0.0001). There were no significant relationships between serum PON1 concentrations and the PON1 genetic polymorphisms, 55Leu/Met (L/M) and 192Gln/Arg (Q/R). The concentration adjusted for HDL-cholesterol or apolipoprotein A-I was also lower in the patient group. However, the specific activities (enzyme activity divided by the PON1 concentration) of paraoxonase and arylesterase were increased in the patient group compared with the control group. In the male patients, but not the female patients, PON1 concentrations were significantly lower in subjects with than without coronary heart disease (CHD) (mean +/- SD: 4.48 +/- 2.77 vs 7.34 +/- 3.22 U/ml, respectively. p < 0.01). In conclusion, the serum PON1 concentration in hemodialyzed patients was significantly decreased, resulting in an attenuation of PON1 enzymic activity. This decrease may be in part involved in the development of cardiovascular disease.
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PMID:Serum paraoxonase (PON1) concentration in patients undergoing hemodialysis. 1222 54

A high intake of saturated fat and of trans isomers of unsaturated fat is associated with increased risk of cardiovascular disease. Recently, we found that replacement of saturated fat by trans fat in a dietary controlled study with 32 men and women decreased serum high-density lipoprotein (HDL)-cholesterol and impaired endothelial function, suggesting that trans fats have stronger adverse effects than saturated fats. To investigate this further, we measured the activity of serum paraoxonase (PON1) in serum samples of the same volunteers after consumption of both diets. PON1 protects lipoproteins from oxidative damage, and higher PON1 activity appears to be related to lower cardiovascular disease risk. PON1 activity (mean +/- SD) was 195.9 +/- 108.9 U/L after 4 weeks of consuming a diet with 22.9% of energy (en%) from saturated fat and 184.5 +/- 99.3 U/L when 9.3 en% from saturated fat was replaced by trans fat (P =.006). Thus, replacement of dietary saturated fat by trans fat not only decreased serum HDL-cholesterol and impaired endothelial function, but also decreased the activity of serum paraoxonase. Whether the changes in serum paraoxonase activity caused the changes in endothelial function needs to be further investigated.
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PMID:Replacement of dietary saturated fat with trans fat reduces serum paraoxonase activity in healthy men and women. 1248 64

This review focuses on the functional genomics of the human paraoxonase (PON1) polymorphisms. Levels and genetic variability of the PON1 position 192 isoforms (Gln/Arg) influence sensitivity to specific insecticides or nerve agents and risk for cardiovascular disease. A more recent area of investigation, the role of PON1 in drug metabolism, is also discussed. We emphasize the importance of considering both PON1 isoforms and PON1 levels in disease/sensitivity association studies.
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PMID:Functional genomic of the paraoxonase (PON1) polymorphisms: effects on pesticide sensitivity, cardiovascular disease, and drug metabolism. 1252 79


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