Circulating Proprotein Convertase Subtilisin Kexin Type 9 Has a Diurnal Rhythm Synchronous With Cholesterol Synthesis and Is Reduced by Fasting in Humans

Objective— To gain insight into the function of proprotein convertase subtilisin kexin type 9 (PCSK9) in humans by establishing whether circulating levels are influenced by diurnal, dietary, and hormonal changes.

Methods and Results— We monitored circulating PCSK9 in a set of dynamic human experiments and could show that serum PCSK9 levels display a diurnal rhythm that closely parallels that of cholesterol synthesis, measured as serum lathosterol. In contrast to these marked diurnal changes in cholesterol metabolism, serum low-density lipoprotein (LDL) cholesterol levels remained stable during the diurnal cycle. Depletion of liver cholesterol by treatment with the bile acid–binding resin, cholestyramine, abolished the diurnal rhythms of both PCSK9 and lathosterol. Fasting (>18 hours) strongly reduced circulating PCSK9 and lathosterol levels, whereas serum LDL levels remained unchanged. Growth hormone, known to be increased during fasting in humans, reduced circulating PCSK9 in parallel to LDL cholesterol levels.

Conclusion— Throughout the day, and in response to fasting and cholesterol depletion, circulating PCSK9 displays marked variation, presumably related to oscillations in hepatic cholesterol that modify its activity in parallel with cholesterol synthesis. In addition to this sterol-mediated regulation, additional effects on LDL receptors may be mediated by hormones directly influencing PCSK9.

Lipid lowering with thyroid hormone and thyromimetics

PURPOSE OF REVIEW

To summarize how thyroid hormones exert their effects on lipid metabolism through specific interaction with their nuclear receptors, to review studies of the effects of new and selective thyromimetic drugs in animals and humans and to identify important questions for future research.

RECENT FINDINGS

Thyroid hormones exert their effects by stimulation of thyroid hormone receptors that have different tissue distribution and metabolic targets. TRβ is predominant in liver and mainly responsible for effects on cholesterol and lipoprotein metabolism, whereas TRα is most important in fat, muscle, and heart. Thyroid hormone analogs (thyromimetics, tiromes) have been developed that activate TRβ and are selectively taken up and/or activated by the liver. Such compounds stimulate hepatic LDL receptors, cholesterol elimination as bile acids and cholesterol, and presumably promote reverse cholesterol transport. In animals, they retard atherosclerosis progression. In humans, eprotirome exerts favorable lipid-modulating effects while lacking thyroid hormone-related side-effects and maintaining normal hypothalamic-pituitary-thyroid feedback. When added to statins, it reduces LDL and non-HDL cholesterol, apolipoprotein B, and triglycerides as well as lipoprotein (a).

SUMMARY

Liver-specific and β-selective thyroid hormone analogs activate a spectrum of favorable thyroid hormone actions that optimize lipid metabolism and promote cholesterol elimination. Further studies should establish long-term safety and potential clinical usefulness of thyromimetics.

Use of the thyroid hormone analogue eprotirome in statin-treated dyslipidemia

BACKGROUND

Dyslipidemia increases the risk of atherosclerotic cardiovascular disease and is incompletely reversed by statin therapy alone in many patients. Thyroid hormone lowers levels of serum low-density lipoprotein (LDL) cholesterol and has other potentially favorable actions on lipoprotein metabolism. Consequently, thyromimetic drugs hold promise as lipid-lowering agents if adverse effects can be avoided.

METHODS

We performed a randomized, placebo-controlled, double-blind, multicenter trial to assess the safety and efficacy of the thyromimetic compound eprotirome (KB2115) in lowering the level of serum LDL cholesterol in patients with hypercholesterolemia who were already receiving simvastatin or atorvastatin. In addition to statin treatment, patients received either eprotirome (at a dose of 25, 50, or 100 microg per day) or placebo. Secondary outcomes were changes in levels of serum apolipoprotein B, triglycerides, and Lp(a) lipoprotein. Patients were monitored for potential adverse thyromimetic effects on the heart, bone, and pituitary.

RESULTS

The addition of placebo or eprotirome at a dose of 25, 50, or 100 microg daily to statin treatment for 12 weeks reduced the mean level of serum LDL cholesterol from 141 mg per deciliter (3.6 mmol per liter) to 127, 113, 99, and 94 mg per deciliter (3.3, 2.9, 2.6, and 2.4 mmol per liter), respectively, (mean reduction from baseline, 7%, 22%, 28%, and 32%). Similar reductions were seen in levels of serum apolipoprotein B, triglycerides, and Lp(a) lipoprotein. Eprotirome therapy was not associated with adverse effects on the heart or bone. No change in levels of serum thyrotropin or triiodothyronine was detected, although the thyroxine level decreased in patients receiving eprotirome.

CONCLUSIONS

In this 12-week trial, the thyroid hormone analogue eprotirome was associated with decreases in levels of atherogenic lipoproteins in patients receiving treatment with statins. (ClinicalTrials.gov number, NCT00593047.)

Control of ACAT2 liver expression by HNF4{alpha}: lesson from MODY1 patients

OBJECTIVE

ACAT2 is thought to be responsible for cholesteryl ester production in chylomicron and VLDL assembly. Recently, we identified HNF1alpha as an important regulator of the human ACAT2 promoter. Thus, we hypothesized that MODY3 (HNF1alpha gene mutations) and possibly MODY1 (HNF4alpha, upstream regulator of HNF1alpha, gene mutations) subjects may have lower VLDL esterified cholesterol.

METHODS AND RESULTS

Serum analysis and lipoprotein separation using size-exclusion chromatography were performed in controls and MODY1 and MODY3 subjects. In vitro analyses included mutagenesis and cotransfections in HuH7 cells. Finally, the relevance in vivo of these findings was tested by ChIP assays in human liver. Whereas patients with MODY3 had normal lipoprotein composition, those with MODY1 had lower levels of VLDL and LDL esterified cholesterol, as well as of VLDL triglyceride. Mutagenesis revealed one important HNF4 binding site in the human ACAT2 promoter. ChIP assays and protein-to-protein interaction studies showed that HNF4alpha, directly or indirectly (via HNF1alpha), can bind to the ACAT2 promoter.

CONCLUSIONS

We identified HNF4alpha as an important regulator of the hepatocyte-specific expression of the human ACAT2 promoter. Our results suggest that the lower levels of esterified cholesterol in VLDL- and LDL-particles in patients with MODY1 may-at least in part-be attributable to lower ACAT2 activity in these patients.

Plasma exchange in a patient with heterozygous familial hypercholesterolaemia resistant to drug therapy

A 40-year-old male with heterozygous familial hypercholesterolaemia was resistant to combined drug treatment with cholestyramine and nicotinic acid in adequate doses. He had angina pectoris and evidence of three vessel disease in the coronary angiogram. Repeated plasma exchange at intervals of 1-3 weeks simultaneously with combined drug treatment decreased the plasma cholesterol levels by nearly 40%. There were also signs of regression of xanthomata and some improvement of his angina pectoris. No progression of atherosclerosis was seen angiographically after two years treatment. Plasma exchange may be a therapeutic alternative in drug-resistant familial hypercholesterolaemia.

Spontaneous regression of Budd-Chiari syndrome (hepatic venous occlusion) in a young female

A case of occlusion of the hepatic veins in an 18-year-old girl is presented. The onset was sudden with massive ascites and markedly impaired general condition. The diagnosis was based on liver biopsy and angiograms of the caval and hepatic veins as well as of the celiac artery. No predisposing factors could be found. The patient was treated conservatively with laparocentesis and diuretics. Clear improvement was seen after two weeks, and after four weeks she had no ascites and could be discharged. All liver function tests were then normalized. After three months, all diuretics could be withdrawn, and in the following 11 years she has remained completely recovered. The case illustrates that also widespread thrombi of the hepatic veins may sometimes rapidly dissolve spontaneously, with apparent total reconstitution of hepatic function. This case is unusual since previously reported cases have had high mortality rates and, in surviving cases, operative procedures or large doses of diuretics have been required to control the ascites.

Importance of proprotein convertase subtilisin/kexin type 9 in the hormonal and dietary regulation of rat liver low-density lipoprotein receptors

Hormonal or dietary challenge can stimulate hepatic low-density lipoprotein receptor (LDLR) expression through posttranscriptional mechanisms. We here tested whether such observations may be due to regulation of proprotein convertase subtilisin/kexin type 9 (PCSK9). Treatment with glucagon resulted in a 2-fold increase in hepatic LDLR protein expression, whereas its mRNA levels were reduced; this occurred simultaneously with a 70% reduction in PCSK9 expression. Insulin treatment resulted in responses opposite to those seen by treatment with glucagon. Furthermore, high-dose ethinylestradiol treatment reduced PCSK9 expression by half. Finally, feeding of rats with dietary cholesterol reduced PCSK9 expression, resulting in an increased number of hepatic LDLRs despite a reduction of LDLR mRNA levels. Regulation of PCSK9 occurred in part through sterol regulatory element binding protein-2, but changes in this cholesterol-controlled transcription factor could not explain all hormonal effects seen. We conclude that the hormonal and dietary regulation of hepatic LDLRs also involves posttranscriptional regulation by PCSK9. The identification of PCSK9 regulation by these various treatments is important in understanding of the physiological function of this protein and points to new targets for therapeutic treatments to increase hepatic LDLR numbers.

The circulating metabolic regulator FGF21 is induced by prolonged fasting and PPARalpha activation in man

FGF21 is a critical metabolic regulator, pivotal for fasting adaptation and directly regulated by PPARalpha in rodents. However, the physiological role of FGF21 in man is not yet defined and was investigated in our study. Serum FGF21 varied 250-fold among 76 healthy individuals and did not relate to age, gender, body mass index (BMI), serum lipids, or plasma glucose. FGF21 levels had no diurnal variation and were unrelated to bile acid or cholesterol synthesis. Ketosis induced by a 2 day fast or feeding a ketogenic diet (KD) did not influence FGF21 levels, whereas a 74% increase occurred after 7 days of fasting. Hypertriglyceridemic nondiabetic patients had 2-fold elevated FGF21 levels, which were further increased by 28% during fenofibrate treatment. FGF21 circulates in human plasma and increases by extreme fasting and PPARalpha activation. The wide interindividual variation and the induction of ketogenesis independent of FGF21 levels indicate that the physiological role of FGF21 in humans may differ from that in mice.

Cholesterol synthesis inhibition elicits an integrated molecular response in human livers including decreased ACAT2

OBJECTIVE

The purpose of this study was to identify how different degrees of cholesterol synthesis inhibition affect human hepatic cholesterol metabolism.

METHODS AND RESULTS

Thirty-seven normocholesterolemic gallstone patients randomized to treatment with placebo, 20 mg/d fluvastatin, or 80 mg/d atorvastatin for 4 weeks were studied. Based on serum lathosterol determinations, cholesterol synthesis was reduced by 42% and 70% in the 2 groups receiving statins. VLDL cholesterol was reduced by 20% and 55%. During gallstone surgery, a liver biopsy was obtained and hepatic protein and mRNA expression of rate-limiting steps in cholesterol metabolism were assayed and related to serum lipoproteins. A marked induction of LDL receptors and 3-hydroxy-3-methylglutaryl (HMG) coenzyme A (CoA) reductase was positively related to the degree of cholesterol synthesis inhibition (ChSI). The activity, protein, and mRNA for ACAT2 were all reduced during ChSI, as was apoE mRNA. The lowering of HDL cholesterol in response to high ChSI could not be explained by altered expression of the HDL receptor CLA-1, ABCA1, or apoA-I.

CONCLUSIONS

Statin treatment reduces ACAT2 activity in human liver and this effect, in combination with a reduced Apo E expression, may contribute to the favorable lowering of VLDL cholesterol seen in addition to the LDL lowering during statin treatment.

Dramatically increased intestinal absorption of cholesterol following hypophysectomy is normalized by thyroid hormone

BACKGROUND & AIMS

Hypopituitarism is associated with dyslipidemia, and feeding hypophysectomized rats cholesterol induces severe hypercholesterolemia. This study aimed to unravel further how hypophysectomy alters cholesterol and bile acid metabolism.

METHODS

Intact and hypophysectomized rats were studied during challenge with dietary cholesterol and ezetimibe and upon hormonal substitution with growth hormone, cortisone, and thyroid hormone.

RESULTS

Five findings were established in hypophysectomized rats: (1) The intestinal absorption of cholesterol is doubled. (2) Treatment with ezetimibe abolishes the increases in serum and liver cholesterol. (3) Only thyroid hormone treatment normalizes the increased absorption of cholesterol. (4) The intestinal gene expression of cholesterol transporters NPC1L1 and ABCG5/G8 is unaltered, whereas the hepatic expression of ABCG5/G8 is diminished but strongly stimulated by thyroid hormone. The latter mechanism was supported by measurements of biliary cholesterol and of fecal neutral steroids. (5) The reduced hepatic expression of ABCG5/G8 and Cyp7a1 was normalized by cholesterol feeding, suggesting that other nonestablished mechanisms under pituitary control are important to maintain rats resistant to dietary cholesterol.

CONCLUSIONS

The intestinal absorption of dietary cholesterol is under pituitary control largely exerted by thyroid hormone. Hepatic secretion of cholesterol and ABCG5/G8 expression are strongly stimulated in hypophysectomized rats during treatment with thyroid hormone.

Cholesterol regulates ACAT2 gene expression and enzyme activity in human hepatoma cells

Acyl-coenzyme A:cholesterol acyltransferase (ACAT) catalyzes the synthesis of cholesteryl esters from cholesterol and long-chain fatty acids. The two ACAT enzymes, ACAT1 and ACAT2, lack sterol regulatory elements in their promoters and have not been thought to be transcriptionally regulated by cellular cholesterol. However, Cynomolgus monkeys respond to high-cholesterol diet with increased hepatic ACAT2 mRNA expression. Also, a decrease in hepatic ACAT2 mRNA expression has been observed during statin treatment in humans. Thus, we hypothesized that cholesterol may exert transcriptional regulation on the human ACAT2 gene. To test this, we studied two human hepatoma cell lines (HuH7 and HepG2) under conditions of cholesterol loading or depletion and analyzed ACAT gene expression, enzymatic activity, and cellular cholesterol mass. We show a dose-dependent increase of ACAT2 mRNA expression, an increased enzymatic activity of ACAT2, and increased esterified cholesterol mass upon cholesterol loading. These results suggest that human ACAT2 is transcriptionally regulated by cholesterol.

Age-induced hypercholesterolemia in the rat relates to reduced elimination but not increased intestinal absorption of cholesterol

Plasma cholesterol increases in normal aging in both rodents and humans. This is associated with reduced elimination of cholesterol as bile acids (BAs) and decreased receptor-mediated clearance of plasma LDL, changes that can be reversed by treatment with growth hormone (GH). The level of intestinal absorption of cholesterol may also contribute to the development of hypercholesterolemia. In this study, we investigated whether cholesterol absorption increases with age and whether any such age-related change could be influenced by treatment with GH or ezetimibe (EZE). Male rats aged 6 and 18 mo were studied with and without GH or EZE treatment. BA synthesis was reduced and plasma cholesterol was increased in the old animals, whereas cholesterol absorption was unaltered. Cholesterol absorption was not altered by GH treatment but was reduced by EZE in both groups of animals. Hepatic LDL receptors (LDLRs), scavenger receptor class B type 1, and proprotein convertase subtilisin/kexin type 9 serine protease (PCSK9) transcripts were unchanged in old animals. GH treatment induced LDLRs, PCSK9 transcripts, and BA synthesis. We conclude that the age-induced hypercholesterolemia in the rat and its reversal by GH treatment relates to altered degradation of cholesterol in the liver and is not due to changes in cholesterol absorption.

PPARalpha is a key regulator of hepatic FGF21

The metabolic regulator fibroblast growth factor 21 (FGF21) has antidiabetic properties in animal models of diabetes and obesity. Using quantitative RT-PCR, we here show that the hepatic gene expression of FGF21 is regulated by the peroxisome proliferator-activated receptor alpha (PPARalpha). Fasting or treatment of mice with the PPARalpha agonist Wy-14,643 induced FGF21 mRNA by 10-fold and 8-fold, respectively. In contrast, FGF21 mRNA was low in PPARalpha deficient mice, and fasting or treatment with Wy-14,643 did not induce FGF21. Obese ob/ob mice, known to have increased PPARalpha levels, displayed 12-fold increased hepatic FGF21 mRNA levels. The potential importance of PPARalpha for FGF21 expression also in human liver was shown by Wy-14,643 induction of FGF21 mRNA in human primary hepatocytes, and PPARalpha response elements were identified in both the human and mouse FGF21 promoters. Further studies on the mechanisms of regulation of FGF21 by PPARalpha in humans will be of great interest.

Bile acids and lipoprotein metabolism: effects of cholestyramine and chenodeoxycholic acid on human hepatic mRNA expression

Modulation of bile acid synthesis in human by cholestyramine or by chenodeoxycholic acid (CDCA) treatment affects lipoprotein metabolism leading to altered plasma lipid levels. The molecular changes caused by these treatments, which in turn influence lipoprotein metabolism, are still not entirely known in humans. In this study, mRNA levels were analyzed using real time RT-PCR in liver tissue from patients undergoing cholecystectomy due to gallstone disease. The patients were treated with either CDCA (n=6) or cholestyramine (n=5) for three weeks prior to surgery, six patients received no treatment and served as controls. Cholestyramine increased the expression of the LDL receptor (LDLR) by about 65% and that of proprotein convertase subtilisin kexin 9 (PCSK9) by 70%. After CDCA the levels of both LDLR and hydroxy-methyl-glutaryl coenzyme A reductase mRNA decreased approximately by 50%. The expression of PCSK9 was not changed. The mRNA levels of PCSK9, LDLR, and HMGCoAR were significantly correlated to those of sterol regulatory element binding protein 2 (SREBP2), indicating that SREBP2 is of importance in the regulation of the expression of these genes also in human liver.