Differential DNA methylation in familial hypercholesterolemia.

BACKGROUND: Familial hypercholesterolemia (FH) is a monogenic disorder characterized by elevated low-density lipoprotein cholesterol (LDL-C). A FH causing genetic variant in LDLR, APOB, or PCSK9 is not identified in 12-60% of clinical FH patients (FH mutation-negative patients). We aimed to assess whether altered DNA methylation might be associated with FH in this latter group. METHODS: In this study we included 78 FH mutation-negative patients and 58 FH mutation-positive patients with a pathogenic LDLR variant. All patients were male, not using lipid lowering therapies and had LDL-C levels >6 mmol/L and triglyceride levels <3.5 mmol/L. DNA methylation was measured with the Infinium Methylation EPIC 850 K beadchip assay. Multiple linear regression analyses were used to explore DNA methylation differences between the two groups in genes related to lipid metabolism. A gradient boosting machine learning model was applied to investigate accumulated genome-wide differences between the two groups. FINDINGS: Candidate gene analysis revealed one significantly hypomethylated CpG site in CPT1A (cg00574958) in FH mutation-negative patients, while no differences in methylation in other lipid genes were observed. The machine learning model did distinguish the two groups with a mean Area Under the Curve (AUC)±SD of 0.80±0.17 and provided two CpG sites (cg26426080 and cg11478607) in genes with a possible link to lipid metabolism (PRDM16 and GSTT1). INTERPRETATION: FH mutation-negative patients are characterized by accumulated genome wide DNA methylation differences, but not by major DNA methylation alterations in known lipid genes compared to FH mutation-positive patients. FUNDING: ZonMW grant (VIDI no. 016.156.445).

Coronary artery disease in a child with homozygous familial hypercholesterolemia: Regression after liver transplantation.

Children with homozygous familial hypercholesterolemia are at risk for early cardiovascular events secondary to coronary artery disease. Current medical therapy does not ameliorate this risk. Liver transplantation offers the most effective option to reduce circulating levels of low-density lipoprotein cholesterol and thereby reduce risk of cardiovascular events. Angiographic evidence of regression of coronary artery disease is presented.

Evaluation of the role of STAP1 in Familial Hypercholesterolemia.

Familial hypercholesterolemia (FH) is characterised by elevated serum levels of low-density lipoprotein cholesterol (LDL-C) and a substantial risk for cardiovascular disease. The autosomal-dominant FH is mostly caused by mutations in LDLR (low density lipoprotein receptor), APOB (apolipoprotein B), and PCSK9 (proprotein convertase subtilisin/kexin). Recently, STAP1 has been suggested as a fourth causative gene. We analyzed STAP1 in 75 hypercholesterolemic patients from Berlin, Germany, who are negative for mutations in canonical FH genes. In 10 patients with negative family history, we additionally screened for disease causing variants in LDLRAP1 (low density lipoprotein receptor adaptor protein 1), associated with autosomal-recessive hypercholesterolemia. We identified one STAP1 variant predicted to be disease causing. To evaluate association of serum lipid levels and STAP1 carrier status, we analyzed 20 individuals from a population based cohort, the Cooperative Health Research in South Tyrol (CHRIS) study, carrying rare STAP1 variants. Out of the same cohort we randomly selected 100 non-carriers as control. In the Berlin FH cohort STAP1 variants were rare. In the CHRIS cohort, we obtained no statistically significant differences between carriers and non-carriers of STAP1 variants with respect to lipid traits. Until such an association has been verified in more individuals with genetic variants in STAP1, we cannot estimate whether STAP1 generally is a causative gene for FH.

Efficacy and Safety of Alirocumab in Japanese Patients with Diabetes Mellitus: Post-hoc Subanalysis of ODYSSEY Japan.

AIM: To examine the efficacy and safety of alirocumab in Japanese patients with dyslipidemia with or without diabetes mellitus (DM). METHODS: Patients (n=216) with heterozygous familial hypercholesterolemia (heFH), non-FH at high cardiovascular risk with coronary artery disease (CAD), or category III (primary prevention) were enrolled; 148 (68.5%) patients had a diagnosis of DM at baseline. Patients were randomized (2:1), with stratification factor (heFH, non-FH), to alirocumab (75 mg every 2 weeks [Q2W] with increase to 150 mg if week 8 LDL-C was above predefined limits) or placebo subcutaneously for 52 weeks on top of stable statin therapy. RESULTS: At Week 24, least square (LS) mean±standard error changes in low-density lipoprotein cholesterol (LDL-C) concentration from baseline in alirocumab-treated patients were －63.1±1.6% and －60.8±2.7% in those with and without DM. These LDL-C reductions were maintained to Week 52: －63.0±1.6% (LS mean difference vs placebo －62.4±3.0%; P＜0.0001) with DM and －61.3±2.8% (LS mean difference vs placebo －53.4±4.0%; P＜0.0001) without DM. The most common adverse events in the alirocumab group were nasopharyngitis, back pain, injection site reaction, and fall. No particular safety signals or concerns were noted between DM and non-DM groups at 52 weeks. A dose-increase in alirocumab from 75 to 150 mg Q2W was necessary in two heFH patients, neither of whom had DM. CONCLUSIONS: In high-cardiovascular-risk Japanese patients with hypercholesterolemia on stable statin therapy, alirocumab produced substantial and sustained LDL-C reductions throughout the 52-week study regardless of DM status at baseline, with a similar safety profile to placebo.

Oral Fat Tolerance Test for Sitosterolemia and Familial Hypercholesterolemia: A Study Protocol.

AIM: Sitosterolemia is an extremely rare, autosomal recessive disease characterized by high plasma cholesterols and plant sterols because of increased absorption of dietary cholesterols and sterols from the intestine, and decreased excretion from biliary tract. Previous study indicated that sitosterolemic patients might be vulnerable to post-prandial hyperlipidemia, including high remnant-like lipoprotein particles (RLP) level. Here we evaluate whether a loading dietary fat increases a post-prandial RLP cholesterol level in sitosterolemic patients compared to heterozygous familial hypercholesterolemic patients (FH). METHODS: We recruit total of 20 patients: 5 patients with homozygous sitosterolemia, 5 patients with heterozygous sitosterolemia, and 10 patients with heterozygous FH as controls from May 2015 to March 2018 at Kanazawa University Hospital, Japan. All patients receive Oral Fat Tolerance Test (OFTT) cream (50 g/body surface area square meter, orally only once, and the cream includes 34% of fat, 74 mg of cholesterol, and rich in palmitic and oleic acids. The primary endpoint is the change of a RLP cholesterol level after OFTT cream loading between sitosterolemia and FH. We measure them at baseline, and 2, 4, and 6 hours after the oral fat loading. RESULTS: This is the first study to evaluate whether sitosterolemia patients have a higher post-prandial RLP cholesterol level compared to heterozygous FH patients. CONCLUSION: The result may become an additional evidence to restrict dietary cholesterols for sitosterolemia. This study is registered at University Hospital Medical Information Network (UMIN) Clinical Trials Registry (UMIN ID: UMIN000020330).

High lipoprotein(a) as a possible cause of clinical familial hypercholesterolaemia: a prospective cohort study.

BACKGROUND: The reason why lipoprotein(a) concentrations are raised in individuals with clinical familial hypercholesterolaemia is unclear. We tested the hypotheses that high lipoprotein(a) cholesterol and LPA risk genotypes are a possible cause of clinical familial hypercholesterolaemia, and that individuals with both high lipoprotein(a) concentrations and clinical familial hypercholesterolaemia have the highest risk of myocardial infarction. METHODS: We did a prospective cohort study that included data from 46 200 individuals from the Copenhagen General Population Study who had lipoprotein(a) measurements and were genotyped for common familial hypercholesterolaemia mutations. Individuals receiving cholesterol-lowering drugs had their concentrations of LDL and total cholesterol multiplied by 1·43, corresponding to an estimated 30% reduction in LDL cholesterol from the treatment. In lipoprotein(a) cholesterol-adjusted analyses, total cholesterol and LDL cholesterol were adjusted for the lipoprotein(a) cholesterol content by subtracting 30% of the individuals' lipoprotein(a) total mass before total and LDL cholesterol were used for diagnosis of clinical familial hypercholesterolaemia. We used modified Dutch Lipid Clinic Network (DLCN), Simon Broome, and Make Early Diagnosis to Prevent Early Death (MEDPED) criteria to clinically diagnose familial hypercholesterolaemia. Cox proportional hazard regression calculated hazard ratios (95% CI) of myocardial infarction. FINDINGS: Using unadjusted LDL cholesterol, mean lipoprotein(a) concentrations were 23 mg/dL in individuals unlikely to have familial hypercholesterolaemia, 32 mg/dL in those with possible familial hypercholesterolaemia, and 35 mg/dL in those with probable or definite familial hypercholesterolaemia (ptrend<0·0001). However, when adjusting LDL cholesterol for lipoprotein(a) cholesterol content the corresponding values were 24 mg/dL for individuals unlikely to have familial hypercholesterolaemia, 22 mg/dL for those with possible familial hypercholesterolaemia, and 21 mg/dL for those with probable or definite familial hypercholesterolaemia (ptrend=0·46). High lipoprotein(a) cholesterol accounted for a quarter of all individuals diagnosed with clinical familial hypercholesterolaemia and LPA risk genotypes were more frequent in clinical familial hypercholesterolaemia, whereas lipoprotein(a) concentrations were similar in those with and without familial hypercholesterolaemia mutations. The hazard ratios (HRs) for myocardial infarction compared with individuals unlikely to have familial hypercholesterolaemia and lipoprotein(a) concentration of 50 mg/dL or less were 1·4 (95% CI 1·1-1·7) in those unlikely to have familial hypercholesterolaemia and lipoprotein(a) concentrations of more than 50 mg/dL, 3·2 (2·5-4·1) in those with possible, probable, or definite familial hypercholesterolaemia and lipoprotein(a) concentration of 50 mg/dL or less, and 5·3 (3·6-7·6) in those with possible, probable, or definite familial hypercholesterolaemia and lipoprotein(a) concentration of more than 50 mg/dL. In analyses using Simon Broome or MEDPED criteria, results were similar to those using DLCN criteria to diagnose clinical familial hypercholesterolaemia. INTERPRETATION: High lipoprotein(a) concentrations and corresponding LPA risk genotypes represent novel risk factors for clinical familial hypercholesterolaemia. Our findings suggest that all individuals with familial hypercholesterolaemia should have their lipoprotein(a) measured in order to identify those with the highest concentrations, and as a result, the highest risk of myocardial infarction. FUNDING: Danish Heart Association and IMK General Fund, Denmark.

Hot Topics in Primary Care: Familial Hypercholesterolemia in Youth.

Worldwide, guidelines support early identification, aggressive lifestyle management, and pharmacologic lipid lowering therapies when appropriate in youth with FH. These guidelines are aimed at improving the unending cycle of premature CHD in families despite the vast body of knowledge regarding the natural history of undiagnosed and untreated FH. Although valid concerns have been raised about treating youth other than those with FH with lipid-lowering pharmaceuticals, we believe the preponderance of the evidence laid forth by multiple professional societies from the United States and abroad is clearly weighted in favor of early diagnosis and treatment with lifestyle modification, to prevent the acquisition of other risk factors, and habituation to lifelong low-fat diet and adequate physical activity. We can think of no other instance where providers in the field of family medicine could have such a profound impact on the current and future health of child and parent and even future generations.

Familial hypercholesterolemia: etiology, diagnosis and new treatment options.

Familial hypercholesterolemia (FH) is a common genetic disorder that presents with robust increases in low-density lipoprotein cholesterol (LDL-C) and can lead to premature cardiovascular disease. There are heterozygous and homozygous forms. The diagnosis is usually made based on blood cholesterol levels, clinical signs and family history. Genetic testing can be used to confirm the diagnosis. Effective lowering of LDL-C in FH can prevent cardiovascular morbidity and mortality, however, the disease remains greatly underdiagnosed. The mainstay of pharmacologic therapy in FH patients is high-dose statins, which are often combined with other lipid-lowering agents. The homozygous form is mainly treated with lipid apheresis. Guideline-recommended target levels of LDL-C are often not reached, making new treatment options desirable. Four classes of newer lipid-lowering drugs offer promising advances in treating FH, namely the apolipoprotein-B synthesis inhibitors (mipomersen), the microsomal transfer protein inhibitors (lomitapide), the cholesterol ester transfer protein inhibitors (anacetrapib, evacetrapib) and the proprotein convertase subtilisin/kexin type 9 inhibitors (evolocumab, alirocumab). In this review, the available evidence regarding the use of these drugs in patients with FH is discussed, with particular focus on their efficacy and safety.

Mutación en el gen de apolipoproteína B responsable de hipercolesterolemia familiar: primeros dos casos clínicos reportados en Uruguay / Mutation in apolipoprotein B gene responsible for familial hypercholesterolemia: first two cases reported in Uruguay

Introducción: la apolipoproteína B 100 defectuosa familiar, debida a la mutación R3500Q en el gen de la apolipoproteína B es una causa conocida de hipercolesterolemia familiar heterocigota. Su frecuencia varía entre 1:500 y 1:700 en distintas poblaciones europeas. Se dispone de escasa información referente a su frecuencia en Uruguay y América Latina. Casos clínicos: en este trabajo se describe el hallazgo, realizado por vez primera en Uruguay, de dos pacientes con hipercolesterolemia familiar dominante con la presencia de la mutación R3500Q de la proteína ApoB. Para su hallazgo, se analizó un grupo de pacientes (n=96) de la Comisión Honoraria para la Salud Cardiovascular (CHSCV), con criterios clínicosy bioquímicos de hipercolesterolemia familiar heterocigota. Se realizó estudio molecular para la mutación R3500Q mediante la reacción en cadena de la polimerasa y posterior digestión con enzimas de restricción. Conclusiones: hemos encontrado dos primeros casos de HFh con una genética que explica su fenotipo debido a la mutación R3500Q en el gen ApoB. Por medio de esta estrategia, mostramos que el análisis genético ayuda a la estratificación de pacientes en riesgo, permite el diagnóstico familiar y constituiría el primer paso en el algoritmo diagnóstico etiológico de las hipercolesterolemias dominantes.

A combined LDL receptor/LDL receptor adaptor protein 1 mutation as the cause for severe familial hypercholesterolemia.

Familial hypercholesterolemia (FH) results from impaired catabolism of plasma low density lipoproteins (LDL), thus leading to high cholesterol, atherosclerosis, and a high risk of premature myocardial infarction. FH is commonly caused by defects of the LDL receptor or its main ligand apoB, together mediating cellular uptake and clearance of plasma LDL. In some cases FH is inherited by mutations in the genes of PCSK9 and LDLRAP1 (ARH) in a dominant or recessive trait. The encoded proteins are required for LDL receptor stability and internalization within the LDLR pathway. To detect the underlying genetic defect in a family of Turkish descent showing unregular inheritance of severe FH, we screened the four candidate genes by denaturing gradient gel electrophoresis (DGGE) mutation analysis. We identified different combinatory mixtures of LDLR- and LDLRAP1-gene defects as the cause for severe familial hypercholesterolemia in this family. We also show for the first time that a heterozygous LDLR mutation combined with a homozygous LDLRAP1 mutation produces a more severe hypercholesterolemia phenotype in the same family than a homozygous LDLR mutation alone.

Correlation of atherosclerosis between different topographic sites is highly dependent on the type of hyperlipidemia.

There is a surprising paucity of studies that provide quantitative correlative data on the extent of atherosclerosis between different topographic sites. The impact of cardiovascular risk factors is dependent on the vascular bed, which underlies site-selective effects on progression of atherosclerosis. Therefore, the intraindividual correlation of atherosclerosis between different topographic sites may be dependent on the specific cardiovascular risk profile. The focused objective of the current study is to evaluate whether the correlation of the extent of atherosclerosis between different topographic sites is dependent on the type of hyperlipidemia. Atherosclerosis was quantified at four different topographic locations in the aorta of rabbits with type II or type III hyperlipidemia. Correlation coefficients and semi-partial correlation coefficients adjusted for plasma lipoproteins and sex were determined to compare the degree of atherosclerosis at different topographic sites. Semi-partial correlations adjusted for total plasma cholesterol, plasma triglycerides, and sex of the intima/media ratio between different topographic sites were highly dependent on the type of hyperlipidemia. E.g., the semi-partial correlation coefficient between the intima/media ratio at the level of the ascending aorta and at the level of the descending thoracic aorta was 0.87 (p < 0.0001) in the model of type II hyperlipidemia and was only 0.10 (p = NS) in the model of type III hyperlipidemia. This divergent pattern was also observed for other intersite correlations. Semi-partial Pearson correlation coefficients were very similar to unadjusted Pearson correlation coefficients. Correlation of atherosclerosis between different topographic sites may vary importantly in relation to the type of hyperlipidemia.

Short-term exposure to exogenous lipids in premature infants and long-term changes in aortic and cardiac function.

OBJECTIVE: Intravenous lipid use is associated with an acute hyperlipidemia, but long-term consequences have not been studied. We investigated whether elevated lipids in humans during the critical period of preterm neonatal life have a long-term impact on aortic and myocardial function relevant to adult disease. METHODS AND RESULTS: We followed up 102 subjects born prematurely and now aged 23 to 28 years. Eighteen received intravenous lipids as neonates and were matched to controls with equivalent perinatal characteristics. Global and regional aortic stiffness and left ventricular function were assessed by cardiovascular magnetic resonance. Those who received intravenous lipids had greater aortic stiffness in early adulthood (P=0.0002), with greater stiffness in the abdominal aorta (P=0.012). The relationship was graded according to the elevation in neonatal cholesterol induced by intravenous lipids (P<0.0001) but not other metabolic parameters altered by the infusion. Peak systolic circumferential strain was also reduced in the lipid group (P=0.006), which, again, was proportional to neonatal cholesterol level (P<0.01). CONCLUSIONS: Aortic and myocardial function in young adulthood is associated with intralipid exposure during neonatal life for preterm infants, in a graded manner related to the rise in cholesterol. Circulating cholesterol during critical developmental periods may have long-term impacts on the human cardiovascular system.

Defining the challenges of FH screening for familial hypercholesterolemia.

The purpose of this article is to briefly review but also to highlight the rationale, motivation, and methods in the process of identifying patients of all ages with familial hypercholesterolemia (FH), an often hidden but very important genetic disorder. Since the initiation of population screening for FH in 1994 in the Netherlands, a vast amount of experience has been gathered, addressing almost all issues that are encountered in population screening.

[Cutting-edge research on the metabolism of remnant lipoproteins].

Lipoproteins in the plasma transport lipids to various tissues through the bloodstream. In an analysis based on specific gravity using ultracentrifugation, these can be divided into 4 main fractions: chylomicrons, VLDL, LDL, and HDL. Metabolism of the triglyceride-rich (TG-rich) lipoproteins, chylomicrons and VLDL, begins with the hydrolysis of TGs by lipoprotein lipase (LPL) and proceeds through intermediate metabolites (remnants). Those resulting from the former are referred to as chylomicron remnants, and those from the latter as VLDL remnants. Both types of remnant are enriched in cholesteryl esters and apolipoprotein E (apoE), and, moreover, they are referred to as atherogenic lipoproteins that readily accumulate in the arterial walls. At the research level, the analytical methods for remnants such as electrophoresis, ultracentrifugation, gel filtration, etc., are not necessarily simple. One of the methods used as a clinical laboratory test for the quantification of remnant lipoproteins is the remnant-like particle-cholesterol (RLP-C) assay. The significance of the assay as an evaluation for arteriosclerosis is well recognized internationally. Recently, a new method for measuring remnant lipoprotein cholesterol (RemL-C) has been developed that uses a reagent consisting of enzymes and a surfactant. With this method, measurements simply involve an automated analyzer in the same manner as for the homogeneous assay for HDL-C or LDL-C and have been shown to correlate well with values using conventional RLP-C reagents. Measurements can be made simply without the need for special equipment in a short period of time, about 10 minutes. Furthermore, this means that measurements can be made in this way with higher reproducibility and precision. Nevertheless, where the principles behind the two assays are different, discrepancies in the measured values can be identified in some cases. It is also important to understand the characteristics of both methods when using them. After detailing lipoprotein remnant measurement methods, we point out the significance of lipoprotein remnant measurements under conditions that have been the focus of recent particular attention, such as postprandial hyperlipidemia and metabolic syndrome.

Hypobetalipoproteinaemia secondary to chronic hepatitis C virus infection in a patient with familial hypercholesterolaemia.

Familial hypercholesterolaemia (FH) is a common genetic disorder characterized by high plasma low-density lipoprotein (LDL)-cholesterol and premature coronary artery disease. Many factors, such as illness, high-dose statin therapy or a strict vegan diet can cause hypobetalipoproteinaemia (HBL). The more common secondary causes of HBL in the hospital setting include cachexia, intestinal malabsorption, malnutrition, severe liver disease and hyperthyroidism. We report a case of HBL in a 43-year-old man with previously demonstrated marked hypercholesterolaemia who attended a lipid disorders clinic for FH cascade screening. Surprisingly, a lipid profile taken at that time showed low plasma LDL-cholesterol and apolipoprotein B concentrations of 1.6 mmol/L and 0.61 g/L, respectively. He was not on lipid-lowering therapy. DNA sequencing showed that he was heterozygous for the LDLR gene mutation (C677R) present in other affected family members. Of interest, his serum transaminases were increased by approximately 3-fold and hepatitis serology and genotyping confirmed a diagnosis of hepatitis C virus (HCV) infection. In summary, we describe a case of HBL secondary to chronic HCV infection in a patient with FH, confirmed by mutational analysis.

Pancreatitis aguda en el embarazo / Acute pancreatitis in pregnancy

La pancreatitis aguda (PA) durante el embarazo es una causa poco común de dolor abdominal y, aunque rara vez progresa a la forma necrosante, es una grave complicación cuyo diagnóstico, a menudo, es difícil. Hay muchos factores causales de la PA durante la gestación; el más frecuente, la enfermedad litiásica de la vía biliar, aunque alteraciones metabólicas como la hiperlipidemia pueden actuar como desencadenante. Se presenta el caso de una mujer de 38 años, embarazada de 33+2 semanas con PA (AU)

Acute pancreatitis (AP) is an uncommon cause of abdominal pain during pregnancy. Although this entity rarely progresses to the necrotizing form of the disease, it is a serious complication and diagnosis is often difficult. AP during pregnancy can be caused by many factors, chiefly cholelithiasis, although rare metabolic alterations such as hyperlipidemia may occasionally act as the trigger. We report the case of a 38-year-old woman in the 33+2 week of pregnancy with AP (AU)