Hyperlipidemias: Zambon A

Poli A, Marangoni F, Paoletti R, Mannarino E, Lupattelli G, Notarbartolo A, Aureli P, Bernini F, Cicero A, Gaddi A, Catapano A, Cricelli C, Gattone M, Marrocco W, Porrini M, Stella R, Vanotti A, Volpe M, Volpe R, Cannella C, Pinto A, Del Toma E, La Vecchia C, Tavani A, Manzato E, Riccardi G, Sirtori C, Zambon A, Anonymous00119. · Nutrition Foundation of Italy, Italy. · Nutr Metab Cardiovasc Dis. · Pubmed #18258418 No free full text.

Abstract: The importance of non-pharmacological control of plasma cholesterol levels in the population is increasing, along with the number of subjects whose plasma lipid levels are non-optimal, or frankly elevated, according to international guidelines. In this context, a panel of experts, organized and coordinated by the Nutrition Foundation of Italy, has evaluated the nutritional and lifestyle interventions to be adopted in the control of plasma cholesterol levels (and specifically of LDL cholesterol levels). This Consensus document summarizes the view of the panel on this topic, with the aim to provide an updated support to clinicians and other health professionals involved in cardiovascular prevention.

Staels B, Maes M, Zambon A. · Department of Atherosclerosis, Institut Pasteur de Lille, UMR545 Inserm, University of Lille 2, Lille, France. · Nat Clin Pract Cardiovasc Med. · Pubmed #18628776 No free full text.

Abstract: Statins lower cardiovascular risk in patients with diabetes; however, as these patients are at higher risk than other cardiovascular patients, statins merely decrease coronary event rates to the level seen in untreated nondiabetic individuals at risk for cardiovascular disease, indicating the existence of substantial residual risk. One reasonable explanation resides in the fact that statins have only limited effectiveness on hypertriglyceridemia and low HDL cholesterol, and they do not normalize the LDL size-distribution pattern. Peroxisome proliferator-activated receptor (PPAR)alpha agonists, which include fibrates, normalize this atherogenic lipid profile, as well as several cardiovascular risk markers associated with the metabolic syndrome and type 2 diabetes. In particular, hypertriglyceridemia and the ratio of small dense:large buoyant LDL particles are significantly improved. Outcome trials of PPARalpha agonists have demonstrated reductions in cardiovascular morbidity in patients with diabetes and in those with the metabolic syndrome; plaque progression is diminished, diabetic nephropathy and retinopathy are counteracted and amputation-risk decreased. The combination of fibrates with statins improves overall lipoprotein profile further. PPARalpha agonists seem particularly indicated in patients with diabetes who have residual dyslipidemia (high triglyceride and/or low HDL) despite receiving statin therapy, and patients who are nondiabetic, overweight, insulin-resistant and who have hypertriglyceridemia and/or low HDL cholesterol and chronic inflammation.

Zambon A, Brown BG, Deeb SS, Brunzell JD. · Department of Medicine, University of Washington, Seattle, WA 98195-6426, USA. · J Intern Med. · Pubmed #16629853 No free full text.

Abstract: Increased low-density lipoprotein (LDL) and decreased high-density lipoprotein cholesterol (HDL-C) predict premature coronary artery disease, as do elevated levels of apolipoprotein B or reduced levels of apolipoprotein AI. Probands were studied of families with common genetic forms of dyslipidaemia to determine if apo B or apo AI define genetic groups and if apo B or apo AI levels relate to premature coronary artery disease risk. Elevated apo B was characteristic of familial hypercholesterolaemia, familial combined hyperlipidaemia (FCHL), and was seen in individuals with elevated Lp(a). Normal apo B levels were seen in familial hypertriglyceridaemia and in 'coronary artery disease with low-HDL cholesterol'. Apo AI levels tended to be low in FCHL and were decreased in 'coronary disease with low-HDL cholesterol'. In familial hypertriglyceraemia, even though HDL-C levels were low, normal apo AI and apo B levels were seen in the absence of premature coronary artery disease. Therefore, in genetic dyslipidaemias elevated apo B levels and reduced apo AI levels (or increased apo B/AI ratio) differ and predict premature coronary artery disease.

Deeb SS, Zambon A, Carr MC, Ayyobi AF, Brunzell JD. · Divisions of Medical Genetics, Department of Medicine, University of Washington, Seattle, WA 98195, USA. · J Lipid Res. · Pubmed #12639974 links to  free full text

Abstract: Hepatic lipase (HL) plays a central role in LDL and HDL remodeling. High HL activity is associated with small, dense LDL particles and with reduced HDL2 cholesterol levels. HL activity is determined by an HL gene promoter polymorphism, by gender (lower in premenopausal women), and by visceral obesity with insulin resistance. The activity is affected by dietary fat intake and selected medications. There is evidence for an interaction of the HL promoter polymorphism with visceral obesity, dietary fat intake, and with lipid-lowering medications in determining the level of HL activity.The dyslipidemia with high HL activity is a potentially proatherogenic lipoprotein profile in the metabolic syndrome, in Type 2 diabetes, and in familial combined hyperlipidemia.

Zambon A, Deeb SS, Brown BG, Hokanson JE, Brunzell JD. · Department of Medicine, University of Washington, Seattle, WA 98195-6426, USA. · Circulation. · Pubmed #11171785 links to  free full text

Abstract: BACKGROUND: The common -514 C-->T polymorphism in the promoter region of the hepatic lipase (HL) gene affects HL activity. The C allele is associated with higher HL activity, more dense and atherogenic LDL, and lower HDL(2) cholesterol. Intensive lipid-lowering therapy lowers HL activity, increases LDL and HDL buoyancy, and promotes coronary artery disease (CAD) regression. We tested the hypothesis that subjects with the CC genotype and a more atherogenic lipid profile experience the greatest CAD regression from these favorable effects. METHODS AND RESULTS: Forty-nine middle-aged men with dyslipidemia and established CAD who were undergoing intensive lipid-lowering therapy were studied. Change in coronary stenosis was assessed by quantitative angiography, HL polymorphism by polymerase chain reaction amplification, HL activity by (14)C-labeled substrate, and LDL buoyancy by density-gradient ultracentrifugation. The response to lipid-lowering therapy was significantly different among subjects with different HL promoter genotypes. Subjects with the C:C genotype had the greatest decrease in HL activity (P<0.005 versus TC and TT by ANOVA) and the greatest improvement in LDL density (P<0.005) and HDL(2)-C (P<0.05) with therapy. These subjects had the greatest angiographic improvement, with 96% of them experiencing CAD regression, compared with 60% of TC and none of the TT patients (P:<0.001). CONCLUSIONS:-In middle-aged men with established CAD and dyslipidemia, the HL gene -514 C-->T polymorphism significantly predicts changes in coronary stenosis with lipid-lowering treatment that appear to involve an HL-associated effect on LDL metabolism. This study identifies a gene polymorphism that strongly influences the lipid and clinical response to lipid-lowering drugs.

Zambon A, Brown BG, Hokanson JE, Motulsky AG, Brunzell JD. · Department of Medicine, University of Washington, Seattle, WA 98195-6426, USA. · J Intern Med. · Pubmed #16594908 No free full text.

Abstract: OBJECTIVE: Lipid-lowering therapy (LL-Rx) reduces coronary artery disease (CAD) but the response varies amongst individuals. We investigated the contribution of three genetic forms of dyslipidaemia characterized by elevated plasma apo B, familial hypercholesterolaemia (FH), familial combined hyperlipidaemia (FCHL), and elevated Lp(a), to the angiographic response with LL-Rx. METHODS AND RESULTS: Fifty-one men, with premature CAD and elevated plasma apo B, were selected in whom a genetic diagnosis was based on lipid phenotypes in relatives. Subjects received conventional (diet +/- colestipol) or intensive LL-Rx (niacin or lovastatin plus colestipol). Clinical parameters and CAD severity were measured before and after 2 years of treatment. Twenty-seven patients had FCHL, 12 FH and 12 elevated Lp(a). Regression of coronary stenosis was dependent on the effect of therapy (P < 0.001), genetic form of dyslipidaemia (P = 0.004) and the interaction between the two variables (P = 0.02). Significant regression of coronary stenosis occurred only in FCHL and Lp(a) (P = 0.03, vs. control groups); CAD progression was only slowed in FH. CONCLUSIONS: Three genetic forms of dyslipidaemia were associated with different angiographic outcomes during intensive LL-Rx. Different forms of dyslipidaemia therefore may require different lipid-lowering strategy. Patients with FH and buoyant LDL require more aggressive reduction of LDL cholesterol whilst those with either FCHL or elevated Lp(a) with dense LDL need LDL cholesterol reduction as well as therapies aimed at reduction of the small, dense LDL particles.