Acetyl-CoA carboxylase inhibitor increases LDL-apoB production rate in NASH with cirrhosis: prevention by fenofibrate.

Treatment with acetyl-CoA carboxylase inhibitors (ACCi) in nonalcoholic steatohepatitis (NASH) may increase plasma triglycerides (TGs), with variable changes in apoB concentrations. ACC is rate limiting in de novo lipogenesis and regulates fatty acid oxidation, making it an attractive therapeutic target in NASH. Our objectives were to determine the effects of the ACCi, firsocostat, on production rates of plasma LDL-apoB in NASH and the effects of combined therapy with fenofibrate. Metabolic labeling with heavy water and tandem mass spectrometric analysis of LDL-apoB enrichments was performed in 16 NASH patients treated with firsocostat for 12 weeks and in 29 NASH subjects treated with firsocostat and fenofibrate for 12 weeks. In NASH on firsocostat, plasma TG increased significantly by 17% from baseline to week 12 (P = 0.0056). Significant increases were also observed in LDL-apoB fractional replacement rate (baseline to week 12: 31 ± 20.2 to 46 ± 22.6%/day, P = 0.03) and absolute synthesis rate (ASR) (30.4-45.2 mg/dl/day, P = 0.016) but not plasma apoB concentrations. The effect of firsocostat on LDL-apoB ASR was restricted to patients with cirrhosis (21.0 ± 9.6 at baseline and 44.2 ± 17 mg/dl/day at week 12, P = 0.002, N = 8); noncirrhotic patients did not change (39.8 ± 20.8 and 46.3 ± 14.8 mg/dl/day, respectively, P = 0.51, N = 8). Combination treatment with fenofibrate and firsocostat prevented increases in plasma TG, LDL-apoB fractional replacement rate, and ASR. In summary, in NASH with cirrhosis, ACCi treatment increases LDL-apoB100 production rate and this effect can be prevented by concurrent fenofibrate therapy.

Differentially Regulated Apolipoproteins and Lipid Profiles as Novel Biomarkers for Polypoidal Choroidal Vasculopathy and Neovascular Age-Related Macular Degeneration.

Lipid dyshomeostasis has been implicated in the pathogenesis of various retinal and choroidal vascular diseases. This study aims to investigate whether apolipoprotein (apo) mediated differential regulation of lipid metabolism contributes to the phenotypes of polypoidal choroidal vasculopathy (PCV) and neovascular age-related macular degeneration (nAMD). This study involved 148 subjects including 53 patients with PCV, 44 patients with nAMD, and 51 age-, sex-matched subjects with normal fundus controls. Routine blood biochemistry profile was evaluated. Apolipoproteins was estimated by Luminex technology. After controlling for age, gender, body mass index, duration of hypertension and type 2 diabetes mellitus, apoB/non-high density lipoprotein cholesterol (HDL-C) (p=0.015) was an independent risk factor for nAMD, apoB was an independent risk factor for PCV(p=0.011), compared with control. Low-density lipoprotein cholesterol (LDL-C) was significantly higher in patients with PCV when compared with nAMD (p=0.037). Furthermore, apoB/non-HDL, LDL-C, triglycerides and were significantly correlated with the pathogenesis of subgroups of PCV and nAMD. We concluded that lipid profiles and apos are differential regulated in PCV, nAMD and their subtypes, indicating different pathogenicity contributed to the different phenotypes of PCV and nAMD. Non-pachy PCV shares pathological similarities with nAMD, which is highly correlated with age-related atherosclerosis.

Zebrafish mutants provide insights into Apolipoprotein B functions during embryonic development and pathological conditions.

Apolipoprotein B (ApoB) is the primary protein of chylomicrons, VLDLs, and LDLs and is essential for their production. Defects in ApoB synthesis and secretion result in several human diseases, including abetalipoproteinemia and familial hypobetalipoproteinemia (FHBL1). In addition, ApoB-related dyslipidemia is linked to nonalcoholic fatty liver disease (NAFLD), a silent pandemic affecting billions globally. Due to the crucial role of APOB in supplying nutrients to the developing embryo, ApoB deletion in mammals is embryonic lethal. Thus, a clear understanding of the roles of this protein during development is lacking. Here, we established zebrafish mutants for 2 apoB genes: apoBa and apoBb.1. Double-mutant embryos displayed hepatic steatosis, a common hallmark of FHBL1 and NAFLD, as well as abnormal liver laterality, decreased numbers of goblet cells in the gut, and impaired angiogenesis. We further used these mutants to identify the domains within ApoB responsible for its functions. By assessing the ability of different truncated forms of human APOB to rescue the mutant phenotypes, we demonstrate the benefits of this model for prospective therapeutic screens. Overall, these zebrafish models uncover what are likely previously undescribed functions of ApoB in organ development and morphogenesis and shed light on the mechanisms underlying hypolipidemia-related diseases.

Glycogen synthase kinase 3ß inhibitors prevent hepatitis C virus release/assembly through perturbation of lipid metabolism.

Direct acting antivirals against hepatitis C virus (HCV) have markedly improved cure rates in the past few years. However, they are expensive, with only few targeting host cell factors, and affecting virus assembly and release. Huh7.5 cells infected with a JFH-1 clone of HCV were treated with two different glycogen synthase kinase (GSK3)-ß inhibitors; AR-A014418 and lithium chloride. Intra- and extracellular HCV virions and specific infectivity was determined using real-time RT-PCR and TCID50, and changes in lipid production were identified by enzyme-linked immunoassay and mass spectrometry analyses. Similarly, effect on two HCV replicon cells were identified by the luciferase activity. Although there was limited effect on virus replication in Huh7.5 cells and replicons, Huh7.5 cells treated with GSK3ß inhibitors produced significantly less viral particles in comparison to untreated cells. In addition, the treated cells synthesized significantly lower amounts of ApoB and trapped the ApoE lipoproteins in the cells. In conclusion, our study suggests that GSK3ß plays a pivotal role in HCV virion assembly and release mediated in part through inhibition of apolipoprotein synthesis.

Inhibition of apolipoprotein B synthesis stimulates endoplasmic reticulum autophagy that prevents steatosis.

Inhibition of VLDL secretion reduces plasma levels of atherogenic apolipoprotein B (apoB) lipoproteins but can also cause hepatic steatosis. Approaches targeting apoB synthesis, which lies upstream of VLDL secretion, have potential to effectively reduce dyslipidemia but can also lead to hepatic accumulation of unsecreted triglycerides (TG). Here, we found that treating mice with apoB antisense oligonucleotides (ASOs) for 6 weeks decreased VLDL secretion and plasma cholesterol without causing steatosis. The absence of steatosis was linked to an increase in ER stress in the first 3 weeks of ASO treatment, followed by development of ER autophagy at the end of 6 weeks of treatment. The latter resulted in increased fatty acid (FA) oxidation that was inhibited by both chloroquine and 3-methyl adenine, consistent with trafficking of ER TG through the autophagic pathway before oxidation. These findings support the concept that inhibition of apoB synthesis traps lipids that have been transferred to the ER by microsomal TG transfer protein (MTP), inducing ER stress. ER stress then triggers ER autophagy and subsequent lysosomal lipolysis of TG, followed by mitochondrial oxidation of released FA, leading to prevention of steatosis. The identification of this pathway indicates that inhibition of VLDL secretion remains a viable target for therapies aiming to reduce circulating levels of atherogenic apoB lipoproteins.

Design of Highly Potent Lipid-Functionalized Peptidomimetics for Efficient in Vivo siRNA Delivery.

RNA interference (RNAi) is a highly efficient approach for gene silencing. Regulation of gene expression at post-transcriptional level provides great potential for curing diseases caused by abnormal overexpression of disease-related genes. However, the application of RNAi in the clinic has been hindered by the lack of efficient and biocompatible delivery systems. Therefore, the development of a safe and tissue-targeted double-stranded interfering RNA (siRNA) carrier for clinical application is urgently needed. Here we report the discovery of a highly efficient liposomal siRNA delivery agent based on a novel peptidomimetic built from natural amino acids. Fine tuning of the composition of amino acids, the type of amide linkage in the peptidomimetic, as well as the formulation and the physicochemical parameters of the novel lipoplex resulted in a lipid nanoparticle (LNP) that efficiently encapsulates and carries siRNA to mouse liver. In vivo experiments showed that a single injection of unmodified siRNA complexed to one of the peptidomimetics at a clinically feasible dose induced significant RNAi in mouse liver, resulting in a 90% decrease in apolipoprotein B (ApoB) mRNA level, as well as a 60% decrease in serum ApoB protein level. Analysis of mouse serum by ELISA indicated that the novel peptidomimetic based lipoplex did not elevate the level of liver enzymes (ALT, AST) in the serum. Our novel peptidomimetic-based lipoplex demonstrated great potential for the development of a safe and efficient siRNA delivery agent for clinical applications.

Quercetin represses apolipoprotein B expression by inhibiting the transcriptional activity of C/EBPß.

Quercetin is one of the most abundant polyphenolic flavonoids found in fruits and vegetables and has anti-oxidative and anti-obesity effects. Because the small intestine is a major absorptive organ of dietary nutrients, it is likely that highly concentrated food constituents, including polyphenols, are present in the small intestinal epithelial cells, suggesting that food factors may have a profound effect in this tissue. To identify novel targets of quercetin in the intestinal enterocytes, mRNA profiling using human intestinal epithelial Caco-2 cells was performed. We found that mRNA levels of some apolipoproteins, particularly apolipoprotein B (apoB), are downregulated in the presence of quercetin. On the exposure of Caco-2 cells to quercetin, both mRNA and protein levels of apoB were decreased. Promoter analysis of the human apoB revealed that quercetin response element is localized at the 5'-proximal promoter region, which contains a conserved CCAAT enhancer-binding protein (C/EBP)-response element. We found that quercetin reduces the promoter activity of apoB, driven by the enforced expression of C/EBPß. Quercetin had no effect on either mRNA or protein levels of C/EBPß. In contrast, we found that quercetin inhibits the transcriptional activity of C/EBPß but not its recruitment to the apoB promoter. On the exposure of Caco-2 cells to quercetin 3-O-glucuronide, which is in a cell-impermeable form, no notable change in apoB mRNA was observed, suggesting an intracellular action of quercetin. In vitro interaction experiments using quercetin-conjugated beads revealed that quercetin binds to C/EBPß. Our results describe a novel regulatory mechanism of transcription of apolipoprotein genes by quercetin in the intestinal enterocytes.

Differential impact of hepatic deficiency and total body inhibition of MTP on cholesterol metabolism and RCT in mice.

Because apoB-containing lipoproteins are pro-atherogenic and their secretion by liver and intestine largely depends on microsomal triglyceride transfer protein (MTP) activity, MTP inhibition strategies are actively pursued. How decreasing the secretion of apoB-containing lipoproteins affects intracellular rerouting of cholesterol is unclear. Therefore, the aim of the present study was to determine the effects of reducing either systemic or liver-specific MTP activity on cholesterol metabolism and reverse cholesterol transport (RCT) using a pharmacological MTP inhibitor or a genetic model, respectively. Plasma total cholesterol and triglyceride levels were decreased in both MTP inhibitor-treated and liver-specific MTP knockout (L-Mttp(-/-)) mice (each P < 0.001). With both inhibition approaches, hepatic cholesterol as well as triglyceride content was consistently increased (each P < 0.001), while biliary cholesterol and bile acid secretion remained unchanged. A small but significant decrease in fecal bile acid excretion was observed in inhibitor-treated mice (P < 0.05), whereas fecal neutral sterol excretion was substantially increased by 75% (P < 0.001), conceivably due to decreased intestinal absorption. In contrast, in L-Mttp(-/-) mice both fecal neutral sterol and bile acid excretion remained unchanged. However, while total RCT increased in inhibitor-treated mice (P < 0.01), it surprisingly decreased in L-Mttp(-/-) mice (P < 0.05). These data demonstrate that: i) pharmacological MTP inhibition increases RCT, an effect that might provide additional clinical benefit of MTP inhibitors; and ii) decreasing hepatic MTP decreases RCT, pointing toward a potential contribution of hepatocyte-derived VLDLs to RCT.

Surface tensiometry of apolipoprotein B domains at lipid interfaces suggests a new model for the initial steps in triglyceride-rich lipoprotein assembly.

Apolipoprotein B (apoB) is the principal protein component of triacylglyceride (TAG)-rich lipoproteins, including chylomicrons and very low density lipoprotein, which is the precursor to LDL (the "bad cholesterol"). TAG-rich lipoprotein assembly is initiated by the N-terminal ßα1 superdomain of apoB, which co-translationally binds and remodels the luminal leaflet of the rough endoplasmic reticulum. The ßα1 superdomain contains four domains and is predicted to interact directly with lipids. Using drop tensiometry, we examined the interfacial properties of the α-helical and C-sheet domains and several subdomains to establish a detailed structure-function relationship at the lipid/water interface. The adsorption, stress response, exchangeability, and pressure (Π)-area relationship were studied at both triolein/water and triolein/1-palmitoyl, 2-oleoylphosphatidylcholine/water interfaces that mimic physiological environments. The α-helical domain spontaneously adsorbed to a triolein/water interface and formed a viscoelastic surface. It was anchored to the surface by helix 6, and the other helices were ejected and/or remodeled on the surface as a function of surface pressure. The C-sheet instead formed an elastic film on a triolein/water interface and was irreversibly anchored to the lipid surface, which is consistent with the behavior of amphipathic ß-strands. When both domains were adsorbed together on the surface, the C-sheet shielded a portion of the α-helical domain from the surface, which retained its globular structure. Overall, the unique secondary and tertiary structures of the N-terminal domains of apoB support the intrinsic capability of co-translational lipid recruitment. The evidence presented here allows the construction of a detailed model of the initiation of TAG-rich lipoprotein assembly.

Intestinal lipid handling: evidence and implication of insulin signaling abnormalities in human obese subjects.

OBJECTIVE: Animal models have evidenced the role of intestinal triglyceride-rich lipoprotein overproduction in dyslipidemia. However, few studies have confronted this issue in humans and disclosed the intrinsic mechanisms. This work aimed to establish whether intestinal insulin resistance modifies lipid and lipoprotein homeostasis in the intestine of obese subjects. APPROACH AND RESULTS: Duodenal specimens obtained from 20 obese subjects undergoing bariatric surgery were paired for age, sex, and body mass index with or without insulin resistance, as defined by the homeostasis model assessment of insulin resistance. Insulin signaling, biomarkers of inflammation and oxidative stress, and lipoprotein assembly were assessed. The intestine of insulin-resistant subjects showed defects in insulin signaling as demonstrated by reduced protein kinase B phosphorylation and increased p38 mitogen-activated protein kinase phosphorylation, likely as the result of high oxidative stress (evidenced by malondialdehyde and conjugated dienes) and inflammation (highlighted by nuclear factor-κB, tumor necrosis factor-α, interleukin-6, intercellular adhesion molecule-1, and cyclooxygenase-2). Enhanced de novo lipogenesis rate and apolipoprotein B-48 biogenesis along with exaggerated triglyceride-rich lipoprotein production were observed, concomitantly with the high expression levels of liver and intestinal fatty acid-binding proteins and microsomal transfer protein. The presence of an aberrant intracellular cholesterol transport/metabolism was also suggested by the reduced expression of ATP-binding cassette A1 transporter and proprotein convertase subtilisin/kexin type 9. CONCLUSIONS: According to the present data, the small intestine may be classified as an insulin-sensitive tissue. Dysregulation of intestinal insulin signaling, possibly triggered by oxidative stress and inflammation, was associated with exaggerated lipogenesis and lipoprotein synthesis, which may represent a key mechanism for atherogenic dyslipidemia in patients with metabolic syndrome.

The potential of mipomersen, an ApoB synthesis inhibitor, to reduce necessity for LDL-apheresis in patients with heterozygous familial hypercholesterolemia and coronary artery disease.

INTRODUCTION: LDL-apheresis is a treatment option for familial hypercholesterolemia (FH) with country-specific thresholds for LDL-cholesterol (LDL-C) for initiation. Apheresis also reduces lipoprotein(a) [Lp(a)] and may be used to lower Lp(a) in high-risk patients. Mipomersen, an apolipoproteinB-synthesis-inhibitor, reduces LDL-C and Lp(a). We hypothesized that mipomersen may prevent the necessity for apheresis by reducing the both below thresholds. METHODS: Data from a study in 123 patients with heterozygous FH and coronary artery disease on maximally tolerated lipid-lowering therapy were used to evaluate in what percentage adding mipomersen resulted in lipid-levels below apheresis-thresholds. Different thresholds were tested: LDL-C ≥ 2.59 mmol/l, ≥ 3.36 mmol/l, ≥ 4.14 mmol/l, Lp(a) ≥ 60 mg/dl. RESULTS: Mipomersen decreased LDL-C by 28% (baseline 153 mg/dl), Lp(a) by 21% (baseline 45 mg/dl) (placebo no effect). Mipomersen reduced the percentage of patients with LDL-C ≥ 4.14 mmol/l from 39 to 2%, with LDL ≥ 3.36 mmol/l from 62 to 16%, with LDL ≥ 2.59 mmol/l from 98 to 54%, and with Lp(a) ≥ 60 mg/dl from 39 to 23%. SUMMARY: When added to maximally tolerated lipid-lowering therapy, mipomersen may reduce the necessity for apheresis in many of these patients. In Germany, the threshold for apheresis for LDL typically is 2.59 mmol/l, for Lp(a) 60 mg/dl. Almost 50% of the patients could avoid apheresis with the addition of mipomersen. Further studies are warranted to evaluate whether patients who qualify for apheresis could be adequately controlled with mipomersen.

Temporal changes in concentrations of lipids and apolipoprotein B among adults with diagnosed and undiagnosed diabetes, prediabetes, and normoglycemia: findings from the National Health and Nutrition Examination Survey 1988-1991 to 2005-2008.

BACKGROUND: Diabetes is characterized by profound lipid abnormalities. The objective of this study was to examine changes in concentrations of lipids and apolipoprotein B among participants stratified by glycemic status (diabetes, undiagnosed diabetes, prediabetes, and normoglycemia) in the United States from 1988-1991 to 2005-2008. METHODS: We used data from 3202 participants aged ≥20 years from the National Health and Nutrition Examination Survey (NHANES) III (1988-1991) and 3949 participants aged ≥20 years from NHANES 2005-2008. RESULTS: Among participants of all four groups, unadjusted and adjusted mean concentrations of total cholesterol, low-density lipoprotein cholesterol, non-high-density lipoprotein cholesterol, and apolipoprotein B, but not triglycerides, decreased significantly. Among participants with prediabetes and normoglycemia, unadjusted and adjusted mean concentrations of high-density lipoprotein cholesterol increased significantly. Adjusted mean log-transformed concentrations of triglycerides decreased in adults with undiagnosed diabetes and prediabetes. During 2005-2008, unadjusted concentrations of apolipoprotein B ≥80 mg/dl were observed in 72.8% of participants with diagnosed diabetes, 87.9% of participants with undiagnosed diabetes, 86.6% of participants with prediabetes, and 77.2% of participants with normoglycemia. The unadjusted use of cholesterol-lowering medications rose rapidly, especially among participants with diabetes (from ~1% to ~49%, P <0.001). The use of fenofibrate, gemfibrozil, and niacin rose significantly only among adults with diagnosed diabetes (from ~2% to ~8%, P = 0.011). CONCLUSION: Lipid profiles of adults with diabetes improved during the approximately 16-year study period. Nevertheless, large percentages of adults continue to have elevated concentrations of apolipoprotein B.

A mouse model reveals an important role for catecholamine-induced lipotoxicity in the pathogenesis of stress-induced cardiomyopathy.

AIM: Stress-induced cardiomyopathy (SIC), also known as takotsubo cardiomyopathy, is an acute cardiac syndrome with substantial morbidity and mortality. The unique hallmark of SIC is extensive ventricular dysfunction (akinesia) involving apical segments with preserved function in basal segments. Adrenergic overstimulation plays an important role in initiating SIC, but the pathomechanisms involved are unknown. We tested the hypothesis that excessive catecholamines cause perturbation of myocardial lipid metabolism and that cardiac lipotoxicity is responsible for the pathogenesis of SIC. METHODS AND RESULTS: A single dose injection of isoprenaline (ISO; 400 mg/kg) induced SIC-like regional akinesia in mice. Oil red O staining revealed severe lipid accumulation in the heart 2 h post-ISO. Both intramyocardial lipid accumulation and cardiac function were normalized within 1 week post-ISO and no significant amount of fibrosis was detected. We found that gene expression of lipid importers and exporters (ApoB lipoprotein) was depressed 2 h post-ISO. These results were confirmed by similar findings in SIC patients and in ISO/patient serum-stressed HL-1 cardiomyocytes. Moreover, overexpression of ApoB in the heart was found to protect against the development of ISO-induced cardiac toxicity and cardiac dysfunction. We also found that ISO-induced intramyocardial lipid accumulation caused electrophysiological disturbance and stunning in ISO/patient serum-stressed HL-1 cardiomyocytes. CONCLUSIONS: The present study demonstrates that lipotoxicity is closely associated with catecholamine-induced myocardial dysfunction, including neurogenic stunning, metabolic stunning, and electrophysiological stunning. Cardiac lipotoxicity may originate from direct inhibition of myocardial ApoB lipoprotein and subsequent decreased lipid export, caused by supraphysiological levels of catecholamines.

Mipomersen and other therapies for the treatment of severe familial hypercholesterolemia.

Familial hypercholesterolemia (FH) is an autosomal dominant condition with a population prevalence of one in 300-500 (heterozygous) that is characterized by high levels of low-density lipoprotein (LDL) cholesterol, tendon xanthomata, and premature atherosclerosis and coronary heart disease (CHD). FH is caused mainly by mutations in the LDLR gene. However, mutations in other genes including APOB and PCSK9, can give rise to a similar phenotype. Homozygous FH with an estimated prevalence of one in a million is associated with severe hypercholesterolemia with accelerated atherosclerotic CHD in childhood and without treatment, death usually occurs before the age of 30 years. Current approaches for the treatment of homozygous FH include statin-based lipid-lowering therapies and LDL apheresis. Mipomersen is a second-generation antisense oligonucleotide (ASO) targeted to human apolipoprotein B (apoB)-100. This review provides an overview of the pathophysiology and current treatment options for familial hypercholesterolemia and describes novel therapeutic strategies focusing on mipomersen, an antisense apoB synthesis inhibitor. Mipomersen is distributed mainly to the liver where it silences apoB mRNA, thereby reducing hepatic apoB-100 and giving rise to reductions in plasma total cholesterol, LDL-cholesterol, and apoB concentrations in a dose-and time-dependent manner. Mipomersen has been shown to decrease apoB, LDL-cholesterol and lipoprotein(a) in patients with heterozygous and homozygous FH on maximally tolerated lipid-lowering therapy. The short-term efficacy and safety of mipomersen has been established, however, injection site reactions are common and concern exists regarding the long-term potential for hepatic steatosis with this ASO. In summary, mipomersen given alone or in combination with standard lipid-lowering medications shows promise as an adjunct therapy in patients with homozygous or refractory heterozygous FH at high risk of atherosclerotic CHD, who are not at target or are intolerant of statins.

Apolipoprotein A-I and B levels, dyslipidemia and metabolic syndrome in south-west Chinese women with PCOS.

STUDY QUESTION: What are the relationships between apolipoprotein (apo) A-I and apoB concentrations, the apoB/apoA-I ratio and the prevalences of dyslipidemia and metabolic syndrome (MS) in south-west Chinese women with polycystic ovary syndrome (PCOS). SUMMARY ANSWER: There is a relatively high incidence of dyslipidemia and MS in south-west Chinese women with PCOS, especially in patients without hyperandrogenism. Patients with dyslipidemia are more obese, and have a more adverse glucose and lipid metabolic profile and higher apoB levels and apoB/apoA-I ratio. The increased apoB levels and apoB/A1 ratio and the MS are strongly associated with PCOS, suggesting that there is an increased risk of cardiovascular diseases in these patients. WHAT IS KNOWN AND WHAT THIS PAPER ADDS: Dyslipidemia and MS have been widely studied in women with PCOS, but to date no data from south-west Chinese subjects have been available. The apoB/apoA-I ratio has been reported to be strongly associated with MS and insulin resistance (IR) and to be a reliable parameter that reflects lipid disturbances and the potential to develop atherosclerosis, but its relationship with PCOS is unclear. DESIGN This case-control study included 406 patients with PCOS and 342 control women between 17 and 40 years of age from a population in south-west China during 2006-2011. PARTICIPANTS AND SETTING: The diagnosis of PCOS was based on the revised 2003 Rotterdam criteria. The control group, consisting of women with infertility due to a Fallopian obstruction or the husband's infertility, women undergoing a pre-pregnancy check and healthy volunteers, was recruited from the same hospital during the same period. All women were not taking any medication known to affect carbohydrate or lipid or hormone metabolism for at least 3 months prior to the study, and were studied during the follicular phase of their menstrual cycle. MS was assessed by the National Cholesterol Education Program-Adult treatment Panel (NCEP-ATP) III criteria modified for Asian populations. Dyslipidemia was defined by one or more of the following conditions: fasting total cholesterol≥5.7 mmol/l, fasting triglycerides (TG)≥1.7 mmol/l, fasting high-density lipoprotein cholesterol (HDL-C)<1.29 mmol/l or fasting low-density lipoprotein cholesterol (LDL-C)≥3.6 mmol/l. MAIN RESULTS AND THE ROLE OF CHANCE: The prevalence of dyslipidemia in patients with PCOS was 52.96%, about two times than that in the controls, 28.95%. The most common components of dyslipidemia in patients with PCOS were decreased HDL-C (41.13%) and increased TG (24.14%). PCOS patients with dyslipidemia had significantly higher TG/HDL-C ratios, and lower HDL-C and apoA-I levels when compared with the controls or patients without dyslipidemia, and had significantly higher BMIs, fasting insulin concentrations, 2-h insulin and glucose levels, homeostatic model assessment IR, TG levels, LDL-C levels, atherogenic indexes, apoB concentrations and apoB/apoA-I ratios when compared with all of the control women, with or without dyslipidemia and patients without dyslipidemia. The frequency of MS in patients with PCOS was 25.62%, more than five times than that in the controls. The main two risk factors were increased waist circumference and low HDL-C levels. In the four PCOS phenotypes based on the Rotterdam criteria, the oligo- and/or anovulation+PCO presented the highest prevalence of dyslipidemia (66.14%) and MS (34.65%). Binary logistic regression analysis showed that increased apoB levels, an increased apoB/apoA-I ratio and MS was strongly associated with PCOS (odds ratio=17.41, 27.16 and 7.66, 95% confidence interval: 6.93-43.74, 9.46-77.93 and 4.32-13.57, respectively) after adjustment for age. BIAS, CONFOUNDING AND OTHER REASONS FOR CAUTION: The relatively minor limitations of this study are discussed within the paper. GENERALISABILITY TO OTHER POPULATIONS: The metabolic patterns found in south-west Chinese with PCOS are compared with that of other populations. STUDY FUNDING/COMPETING INTEREST(S): This work was supported by Chinese National Natural Science Foundation (81070463), Program for Changjiang Scholars and Innovative Research Team in University (IRT0935), and Research Seed Fund from West China Second Hospital of Sichuan University (to H.B.). There are no any competing interests. TRIAL REGISTRATION NUMBER: N/A.

The human hepatocyte cell lines IHH and HepaRG: models to study glucose, lipid and lipoprotein metabolism.

Metabolic diseases reach epidemic proportions. A better knowledge of the associated alterations in the metabolic pathways in the liver is necessary. These studies need in vitro human cell models. Several human hepatoma models are used, but the response of many metabolic pathways to physiological stimuli is often lost. Here, we characterize two human hepatocyte cell lines, IHH and HepaRG, by analysing the expression and regulation of genes involved in glucose and lipid metabolism. Our results show that the glycolysis pathway is activated by glucose and insulin in both lines. Gluconeogenesis gene expression is induced by forskolin in IHH cells and inhibited by insulin in both cell lines. The lipogenic pathway is regulated by insulin in IHH cells. Finally, both cell lines secrete apolipoprotein B-containing lipoproteins, an effect promoted by increasing glucose concentrations. These two human cell lines are thus interesting models to study the regulation of glucose and lipid metabolism.

Assessment of chitosan-affected metabolic response by peroxisome proliferator-activated receptor bioluminescent imaging-guided transcriptomic analysis.

Chitosan has been widely used in food industry as a weight-loss aid and a cholesterol-lowering agent. Previous studies have shown that chitosan affects metabolic responses and contributes to anti-diabetic, hypocholesteremic, and blood glucose-lowering effects; however, the in vivo targeting sites and mechanisms of chitosan remain to be clarified. In this study, we constructed transgenic mice, which carried the luciferase genes driven by peroxisome proliferator-activated receptor (PPAR), a key regulator of fatty acid and glucose metabolism. Bioluminescent imaging of PPAR transgenic mice was applied to report the organs that chitosan acted on, and gene expression profiles of chitosan-targeted organs were further analyzed to elucidate the mechanisms of chitosan. Bioluminescent imaging showed that constitutive PPAR activities were detected in brain and gastrointestinal tract. Administration of chitosan significantly activated the PPAR activities in brain and stomach. Microarray analysis of brain and stomach showed that several pathways involved in lipid and glucose metabolism were regulated by chitosan. Moreover, the expression levels of metabolism-associated genes like apolipoprotein B (apoB) and ghrelin genes were down-regulated by chitosan. In conclusion, these findings suggested the feasibility of PPAR bioluminescent imaging-guided transcriptomic analysis on the evaluation of chitosan-affected metabolic responses in vivo. Moreover, we newly identified that downregulated expression of apoB and ghrelin genes were novel mechanisms for chitosan-affected metabolic responses in vivo.

In vivo activity and duration of short interfering RNAs containing a synthetic 5'-phosphate.

Endogenous and exogenous short interfering RNAs (siRNAs) require a 5'-phosphate for loading into Ago2 and cleavage of the target mRNA. We applied a synthetic 5'-phosphate to siRNA guide strands to evaluate if phosphorylation in vivo is rate limiting for maximal siRNA knockdown and duration. We report, for the first time, an in vivo evaluation of siRNAs with a synthetic 5'-phosphate compared to their unphosphorylated versions. siRNAs that contained a 5'-phosphate had the same activity in vivo compared with unphosphorylated siRNAs, indicating phosphorylation of an siRNA is not a rate limiting step in vivo.

Overexpression of apolipoprotein B attenuates pathologic cardiac remodeling and hypertrophy in response to catecholamines and after myocardial infarction in mice.

INTRODUCTION: The heart produces apolipoprotein (apo) B-containing lipoproteins which enables cardiac export of potentially cardiotoxic lipids. We hypothesized that overexpression of apoB attenuates the pathologic cardiac remodeling and hypertrophic response following pathological stimuli such as chronic adrenergic overstimulation and myocardial infarction (MI). METHODS: Cardiac hypertrophy was induced by a chronic infusion of isoproterenol (ISO) 15 mg/kg/day for 3 weeks in human apoB transgenic mice (n = 9) and in non-transgenic wild-type mice (n = 10). As controls, apoB transgenic (n = 10) and wild-type mice (n = 10) saline infusions were used. Transthoracic echocardiography was performed at baseline and after 3 weeks of treatment to evaluate left ventricular (LV) function and morphology. To investigate the effects of expression on postinfarct hypertrophic response we induced MI in apoB transgenic mice (n = 8) and in wild-type controls (n = 11). The hearts were explanted and weighed 6 weeks post MI. RESULTS: At baseline, WT mice had higher BW and LV mass (LVM) compared to the apoB mice. The increase in LV mass and dimensions after 3 weeks of treatment with ISO was significantly lower while systolic function was significantly better in the apoB group. Six weeks post MI the apoB mice had significantly lower heart weight and heart weight to body weight ratio. The infarct size was similar in both groups. CONCLUSION: Overexpression of apoB attenuates the pathologic remodeling and hypertrophic response to chronic adrenergic stimulation and MI. Our results indicate that cardiac expression of apoB-containing lipoproteins might be an important regulator of myocardial structure and function.