Medha V. Kulkarni scite author profile

Recent discovery and characterization of APOAV suggests a role in metabolism of triglyceride (TG)-rich lipoproteins. Previously, variation at the APOAV locus was shown to modestly influence plasma TGs in normolipidemic samples. The aims of this study were to assess the effects of a polymorphism in APOAV (T-1131C) in terms of its frequency among three dyslipidemic populations and a control population, differences of allele frequency across available ethnic groups, and associations with specific lipoprotein TG and cholesterol compartments. We found a striking elevation in the frequency of the rare allele in a Chinese population ( P ‫؍‬ 0.0002) compared with Hispanic and European populations. The rare allele of the polymorphism was associated with elevated plasma TG ( P ‫؍‬ 0.012), VLDL cholesterol ( P ‫؍‬ 0.0007), and VLDL TG ( P ‫؍‬ 0.012), LDL TG ( P ‫؍‬ 0.003), and HDL TG ( P ‫؍‬ 0.016). Linear regression models predict that possession of the rare allele elevates plasma TG by 21 mg/dl ( P ‫؍‬ 0.009) and VLDL cholesterol by 8 mg/dl ( P ‫؍‬ 0.0001), and reduces HDL cholesterol by 2 mg/dl ( P ‫؍‬ 0.017). The association of the polymorphism with altered lipoprotein profiles was observed in combined hyperlipidemia, hypoalphalipoproteinemia, and hyperalphalipoproteinemia, and in controls. These findings indicate that APOAV is an important determinant of plasma TG and lipoprotein cholesterol, and is potentially a risk factor for cardiovascular disease. -Aouizerat, B.

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Genetic variation of PLTP modulates lipoprotein profiles in hypoalphalipoproteinemia

Aouizerat

Engler

Natanzon

et al. 2006

Journal of Lipid Research

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Phospholipid transfer protein (PLTP) participates in key processes in lipoprotein metabolism, including interparticle phospholipid transfer, remodeling of HDL, cholesterol and phospholipid efflux from peripheral tissues, and the production of hepatic VLDL. The impact of PLTP on reverse cholesterol transport suggests that the gene may harbor sequence anomalies that contribute to disorders of HDL metabolism. The human PLTP gene was screened for sequence anomalies by DNA melting analysis in 276 subjects with hypoalphalipoproteinemia (HA) and 364 controls. The association with plasma lipid parameters was evaluated. We discovered 18 sequence variations, including four missense mutations and a novel polymorphism (c.-34G.C). In healthy controls, the c.-34G.C minor allele was associated with higher high density lipoprotein-cholesterol (HDL-C) and was depleted in subjects with HA. Linear regression models predict that possession of the rare allele decreases plasma triglyceride (TG) and TG/HDL-C and increases HDL-C independent of TG. Decreased PLTP activity was observed in one (p.R235W) of four (p.E72G, p.S119A, p.S124Y, and p.R235W) mutations in an in vitro activity assay. These findings indicate that PLTP gene variation is an important determinant of plasma lipoproteins and affects disorders of HDL metabolism.-Aouizerat,

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Genetic variation in phospholipid transfer protein modulates lipoprotein profiles in hyperalphalipoproteinemia

et al. 2008

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We previously demonstrated the role of a Phospholipid Transfer Protein (PLTP) gene variation (rs2294213) in determining levels of HDL-C in hypoalphalipoproteinemia (HypoA). We have now explored the role of PLTP in hyperalphalipoproteinemia (HyperA). The human PLTP gene was screened for sequence anomalies by DNA melting in 107 subjects with HyperA. The association with plasma lipoprotein levels was evaluated. We detected 7 sequence variations:, 1 previously reported variation (rs2294213), and 5 novel mutations including 1 missense mutation (L106F). PLTP activity was unchanged in the p.L106F mutation. The frequency of the rs2294213 minor allele was markedly increased in the HyperA group (7.0%) in comparison with a control group (4.3%) and the HypoA group (2.2%). Moreover, rs2294213 was strongly associated with HDL-C levels. Linear regression models predict that possession of the rs2294213 minor allele increases HDL-C independent of triglycerides. These findings extend the association of rs2294213 with HDL-C levels into the extremes of the HDL distribution.

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The lipoprotein lipase gene in combined hyperlipidemia: evidence of a protective allele depletion

et al. 2006

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Background: Lipoprotein Lipase (LPL), a key enzyme in lipid metabolism, catalyzes the hydrolysis of triglycerides (TG) from TG-rich lipoproteins, and serves a bridging function that enhances the cellular uptake of lipoproteins. Abnormalities in LPL function are associated with pathophysiological conditions, including familial combined hyperlipidemia (FCH). Whereas two LPL susceptibility alleles were found to co-segregate in a few FCH kindred, a role for common, protective alleles remains unexplored. The LPL Ser447Stop (S447X) allele is associated with anti-atherogenic lipid profiles and a modest reduction in risk for coronary disease. We hypothesize that significant depletion of the 447X allele exists in combined hyperlipidemia cases versus controls. A casecontrol design was employed. The polymorphism was assessed by restriction assay in 212 cases and 161 controls. Genotypic, allelic, and phenotypic associations were examined.

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Influence of an asparagine to lysine mutation at amino acid 3516 of apolipoprotein B on low-density lipoprotein receptor binding

Gaffney

Pullinger²,

O’Reilly

et al. 2002

Clinica Chimica Acta

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Medha V. Kulkarni

Genetic analysis of a polymorphism in the human apoA-V gene: effect on plasma lipids

Genetic variation of PLTP modulates lipoprotein profiles in hypoalphalipoproteinemia

Genetic variation in phospholipid transfer protein modulates lipoprotein profiles in hyperalphalipoproteinemia

The lipoprotein lipase gene in combined hyperlipidemia: evidence of a protective allele depletion

Influence of an asparagine to lysine mutation at amino acid 3516 of apolipoprotein B on low-density lipoprotein receptor binding

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