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Target Concepts:
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Query: UMLS:C0018799 (
heart disease
)
34,133
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lipoprotein lipase
(
LPL
) plays a pivotal role in lipoprotein metabolism. Three recently described exonic polymorphisms of the gene, D9N, N291S and S447X, have been variably found to influence plasma lipids while effects on coronary heart disease (CHD) are less well documented. Two predominantly Caucasian groups were studied: CHD patients <50 years of age, with angiographically documented CHD; and a randomly recruited community control group without a history of
heart disease
. The 9N allele of the D9N polymorphism was present in 25 of 428 (5.8%) of Caucasian males with CHD and in seven of 291 (2.4%) of corresponding community subjects (odds ratio, 2.5; 95% confidence interval (CI), 1.1-5.9; P=0.03) and was also significantly over-represented in the Caucasian males with myocardial infarction (MI) (21 of 308 or 6.8%; odds ratio, 2.6; 95% CI, 1.1-5.9; P=0.01). The distributions of the other two polymorphisms were similar in the CHD and community groups. In multivariate models adjusted for age, sex, diabetes, body mass index, smoking, lipid levels and race, the D9N polymorphism remained significantly related to both CHD and MI, with an odds ratio >2. There were, generally, trends to more adverse fasting plasma high-density lipoprotein (HDL) cholesterol and triglycerides in carriers of the 291S and 9N alleles, and the opposite trends for triglycerides in 447X carriers. In the community group, male carriers of 291S (n=13) had significantly (20%) lower HDL cholesterol than corresponding non-carriers (n=323), 0.98+/-0.07 mmol/l (mean+/-S.E.) versus 1.22+/-0.02 mmol/l (P<0.005), while HDL cholesterol was not different in male carriers (n=8) and non-carriers (n=296) of 9N (1.23+/-0.13 mmol/l versus 1.22+/-0.02 mmol/l). Multivariate analysis confirmed that the 291S allele carrier status conferred a significantly lower HDL cholesterol (P=0.001) and the 447X allele lower triglyceride (P<0.01) in the community group. In conclusion,
LPL
9N carrier status was unequivocally related to premature CHD and to MI in males, strongly supporting recent results in older aged males. The somewhat different effects of the D9N and N291S polymorphisms on plasma lipids, and the absence of a clear effect of the N291S on CHD, raise the possibility that the effect of 9N carrier status might be mediated through effects on
LPL
function in addition to those influencing fasting plasma lipids.
...
PMID:Lipoprotein lipase D9N, N291S and S447X polymorphisms: their influence on premature coronary heart disease and plasma lipids. 1142 11
Coronary heart disease is a complex disease reflecting the interaction of multiple genes with the environment (e.g. diet, life style).
Lipoprotein lipase
(
LPL
) plays an important role in lipid metabolism and the pathogenesis of coronary atherosclerosis. Recent associations between single-nucleotide polymorphisms in the
LPL
gene and
heart disease
have been reported, but little is known in Chinese. The
LPL
gene spans >26 kb, with an mRNA of 3549 bp. In the present study, we screened 5155 bp (565 bp of 5' flanking region, nine exons and donor- and acceptor-splice sites, and some intronic bases) in 160 Chinese patients with confirmed coronary heart disease and 150 age- and gender-matched controls. Thirteen of the sixteen single-nucleotide polymorphisms that we found have not been previously reported. In males, significant (P<0.05) differences between the coronary heart disease patients and controls were found for five single-nucleotide polymorphisms: -421G>A (5' flanking region); +13,577C>A (intron 2); +16,052G>A, R192Q (exon 5); +16,173C>G and +16,177T>C (intron 5). In females, significant differences between the patients with coronary heart disease and controls were found for only the -421G>A and +16,052G>A (R192Q) mutations. Among the coronary heart disease males, significant (P<0.05) associations were found between the low-HDL high-triglyceride (LHDL/HTG) phenotype and the non-LHDL/HTG trait for the 5' flanking-421G, the intron 2+13,577C, and the exon 5+16,052G mutations, with odds-ratios (ORs)[confidence intervals] of 3.90[1.12-13.66], 3.38[1.22-9.40], and 3.22[1.04-10.01], respectively; no corresponding associations were found in females. There were 69, 51, 57 and 41 unphased haplotype patterns in male coronary heart disease, male control, female coronary heart disease and female control groups, respectively; the computer program PM-Plus found the heterogeneity model by far the best fit (P<0.0001 in males, >0.01 in females). These data show that some single-nucleotide polymorphisms in the
LPL
gene among Chinese are associated with abnormal lipid and lipoprotein profiles and predisposition to coronary heart disease, a genetically heterogeneous complex disease, and that they are gender-specific.
...
PMID:Single-nucleotide polymorphisms in the lipoprotein lipase gene associated with coronary heart disease in Chinese. 1240 99
Lipoprotein lipase
(
LPL
) plays a central role in triglyceride metabolism, and the
LPL
gene T495G HindIII polymorphism has been associated with variations in lipid levels and
heart disease
in Caucasians with the more common H+ allele being associated with adverse lipid profiles and increased risk of CHD. We investigated this polymorphism in 785 Chinese subjects with varying components of the metabolic syndrome, including 61.4% with early-onset type 2 diabetes (age at diagnosis < or = 40 years), and 167 healthy control subjects using a polymerase chain reaction (PCR)-based restriction fragment length polymorphism (RFLP) method. The allele and genotype frequencies were similar in the patients and control subjects. When grouped above or below standard cutoffs for triglyceride levels, the H+ allele was more frequent in hypertriglyceridemic than that in normotriglyceridemic subjects in the total population (81.5% v 76.1%) and early-onset type 2 diabetics (84.4% v 77.4%, both P <.05). Moreover, H+H+ carriers had significantly higher plasma triglyceride and lower high-density lipoprotein (HDL)-cholesterol levels when compared to subjects with the H- allele in the total population, and in patients with early-onset diabetics (both P <.05). In the total population and the early-onset diabetic patients, this relationship was confined to males when gender was considered. We conclude that the H+ allele of the
LPL
gene HindIII polymorphism is associated with higher plasma triglyceride and lower HDL-cholesterol levels in Chinese patients with early-onset diabetes.
...
PMID:The lipoprotein lipase gene HindIII polymorphism is associated with lipid levels in early-onset type 2 diabetic patients. 1264 73
The heart has a limited potential to synthesize fatty acid (FA), and, therefore, FA is supplied from several sources: lipolysis of endogenous cardiac triglyceride (TG) stores or from exogenous sources in the blood.
Lipoprotein lipase
(
LPL
), synthesized in cardiomyocytes, catalyzes the breakdown of the TG component of lipoproteins to provide FA to the heart. It is the vascular endothelial-bound
LPL
that determines the rate of plasma TG clearance, and, hence, it is also called heparin-releasable (HR) "functional"
LPL
. Functional
LPL
is regulated by numerous dietary and hormonal factors and is sensitive to pathophysiological alterations like those observed during diabetes. In this condition, absolute or relative lack of insulin impairs cardiac glucose transport and oxidation, resulting in FA becoming the preferred means of energy supply. To make available this increased requirement of the heart for FA, the diabetic heart upregulates its luminal
LPL
activity by posttranslational mechanisms. Chronically elevated cardiac
LPL
can result in abnormal FA supply and utilization by the heart tissue that could potentially initiate and sustain cardiac dysfunction during diabetes. As effective blood glucose control is difficult during diabetes, it is conceivable that a parallel increase in functional cardiac
LPL
activity may predispose people with diabetes to premature death from cardiac disease. By gaining more insight into the initial metabolic processes in the diabetic heart, we can attempt to piece together a part of the cascade of events leading to diabetic
heart disease
.
...
PMID:Cardiac lipoprotein lipase: metabolic basis for diabetic heart disease. 1630 34
