Can LDL cholesterol be too low? Possible risks of extremely low levels.

Following the continuous accumulation of evidence supporting the beneficial role of reducing low-density lipoprotein cholesterol (LDL-C) levels in the treatment and prevention of atherosclerotic cardiovascular disease and its complications, therapeutic possibilities now exist to lower LDL-C to very low levels, similar to or even lower than those seen in newborns and nonhuman species. In addition to the important task of evaluating potential side effects of such treatments, the question arises whether extremely low LDL-C levels per se may provoke adverse effects in humans. In this review, we summarize information from studies of human cellular and organ physiology, phenotypic characterization of rare genetic diseases of lipid metabolism, and experience from clinical trials. Specifically, we emphasize the importance of the robustness of the regulatory systems that maintain balanced fluxes and levels of cholesterol at both cellular and organismal levels. Even at extremely low LDL-C levels, critical capacities of steroid hormone and bile acid production are preserved, and the presence of a cholesterol blood-brain barrier protects cells in the central nervous system. Apparent relationships sometimes reported between less pronounced low LDL-C levels and disease states such as cancer, depression, infectious disease and others can generally be explained as secondary phenomena. Drug-related side effects including an increased propensity for development of type 2 diabetes occur during statin treatment, whilst further evaluation of more potent LDL-lowering treatments such as PCSK9 inhibitors is needed. Experience from the recently reported and ongoing large event-driven trials are of great interest, and further evaluation including careful analysis of cognitive functions will be important.

Differences in brain cholesterol metabolism and insulin in two subgroups of patients with different CSF biomarkers but similar white matter lesions suggest different pathogenic mechanisms.

Investigate possible associations of white matter hyperintensities (WMHs) with the metabolism of cholesterol and insulin in two subgroups of patients with memory complaints and different CSF Aß42 and CSF tau levels. 59 patients from the memory clinic at Karolinska Hospital were included. Degree of WMHs was rated using the ARWMC scale and the following biomarkers were measured in CSF and plasma: insulin, cholesterol, lanosterol, lathosterol, and oxidized cholesterol metabolites. The WMHs in CSF control-like group correlated with increased brain cholesterol synthesis and reduced efflux of oxysterols and insulin in CSF. In the CSF AD-like group, the WMHs correlated with increased peripheral cholesterol metabolism. Despite having similar appearance on FLAIR images, the pathogenic mechanisms of WMHS are likely to be different in the two groups investigated.

Enhanced production of 24S-hydroxycholesterol is not sufficient to drive liver X receptor target genes in vivo.

BACKGROUND: Oxysterols such as 24S-hydroxycholesterol (OHC) and 27-OHC are intermediates of cholesterol excretion pathways. In addition, they are putative endogenous agonists of the liver X receptor (LXR) class of nuclear hormone receptors and are thought to be important mediators of cholesterol-dependent gene regulation. 24S-OHC is one of the most efficient endogenous LXR agonists known and is present in the brain and in the circulation at relatively high levels. OBJECTIVES: To explore the regulatory importance of 24S-OHC in vivo. DESIGN: We developed a transgenic mouse model in which human cholesterol 24-hydroxylase, the enzyme responsible for the formation of 24S-OHC, was expressed under the control of a promoter derived from the ß-actin gene. RESULTS: Both male and female transgenic mice had elevated levels of cerebral, plasma, biliary and faecal 24S-OHC. According to the faecal excretion results, production of 24S-OHC was increased four- to sevenfold. Gene expression profiling revealed that the elevated production of 24S-OHC did not result in the anticipated activation of LXR target genes in the brain or liver. CONCLUSION: In spite of the fact that 24S-OHC is a highly effective agonist of LXRs in vitro, it is not a critical activator of target genes to this nuclear receptor in vivo, either in the brain or in the liver.

High levels of 15-oxygenated steroids in circulation of patients with multiple sclerosis: fact or fiction?

15-Oxygenated cholesterol species such as 5α-cholest-8(14)ene-3ß,15α-diol (15HC) and 3ß-hydroxy-5α-cholest-8(14)-en-15-one (15KC) are commercially available synthetic products unlikely to occur in biological systems. Surprisingly, Farez et al. recently reported that these two steroids occur in human circulation at levels considerably higher than those of any other endogenous oxysterol [Farez, M. et al. 2009. Toll-like receptor 2 and poly(ADP-ribose) polymerase 1 promote central nervous system neuroinflammation in progressive EAE. Nat. Immunol. 10: 958-964]. The levels were reported to be increased in patients with multiple sclerosis in a progressive phase and the authors suggested that this could be utilized diagnostically. Based on extensive in vitro experiments exposing cells to the same high levels of 15HC as found in vivo (1000 ng/ml) the authors concluded that 15HC may be an important pathogenetic factor in multiple sclerosis. Using combined gas chromatography-mass spectrometry we fail to detect significant plasma levels of 15HC either in healthy controls or in patients with multiple sclerosis (levels < 2 ng/ml). If 15KC is present in these plasma samples, the concentration of it must be <10 ng/ml. Our failure to detect significant levels of the above steroids could not be due to loss during hydrolysis and work-up because recovery of the added two oxysterols was close to 100%. Autoxidation of lipoprotein-bound cholesterol resulted in extensive conversion of cholesterol into 7-oxygenated but not 15-oxygenated sterols. We conclude that if present there are trace amounts only of the above 15-oxygenated steroids in human circulation and that the role of such oxysterols as pathogenetic factors and biomarkers must be reconsidered.

Platelet alpha- and beta- secretase activities are not significantly affected by dementia or mild cognitive impairment in Swedish patients.

The processing of the Amyloid Precursor Protein (APP) is a critical event in the formation of amyloid plaques which are composed of the 4kDa amyloid beta-peptide (Abeta). Processing of APP occurs through a non-amyloidogenic pathway, mediated by initial alpha-secretase cleavage or through an amyloidogenic pathway via sequential cleavage by beta- and gamma-secretase enzymes, which produces Abeta peptides. Currently, the diagnosis of probable or possible Alzheimer's disease (AD) is primarily based on neuropsychological and neuroradiological assessment. Recent reports indicate that platelet beta-secretase activity is moderately increased in patients with AD and mild cognitive impairment (MCI). To our knowledge platelet alpha-secretase activity has not yet been explored in this context and estimation of the ratio of the activities of alpha- and beta-secretase in platelets may represent a useful surrogate marker of the balance between the two pathways of APP metabolism and be of importance for the diagnosis of AD. We therefore considered it of interest to develop assays of platelet alpha- and beta-secretase activities suitable for such clinical investigations. Application of these assays to a Swedish population failed to uncover an effect of AD or MCI on individual platelet secretase activities or the secretase ratio. However, we did observe an inverse correlation between plasma triacylglycerol levels and the secretase ratio. The results are discussed in the context of the clinical usefulness of the secretase ratio as a biochemical adjunct to the diagnosis of AD.

4beta-hydroxycholesterol as a marker of CYP3A4 inhibition in vivo - effects of itraconazole in man.

OBJECTIVE: Itraconazole, a triazole antifungal agent, has been demonstrated to act as an inhibitor of the ligand induced pregnane X receptor-mediated transcriptional regulation of the CYP3A4 gene. Here, we study the potential endogenous serum marker of CYP3A4 activity, 4beta-hydroxycholesterol, during therapy with itraconazole. PATIENTS AND METHODS: 8 male patients with onychomycosis received two 1-week cycles of treatment with 400 mg itraconazole once daily in an open, prospective exploratory trial. Fasting serum samples were taken at the beginning and at the end of each cycle. The levels of cholesterol were measured using gas chromatography-flame ionization detection, while cholesterol and bile acid precursors were quantified by gas chromatography-mass spectrometry. RESULTS: Total cholesterol decreased by 10% (p < 0.0005) during the itraconazole treatment. Concentrations of the cholesterol precursor lanosterol and 24, 25-dihydrolanosterol increased 10- and 240-fold, respectively (p < 0.001 for both). Interestingly, the ratio of serum lathosterol to cholesterol, an indicator of endogenous cholesterol synthesis downstream from lanosterol, remained unchanged. Absolute and cholesterol-corrected concentrations of 4beta-hydroxycholesterol, formed by CYP3A4-mediated oxidation, decreased significantly during both cycles, on average by 29.1% (p = 0.0006) and 20.8% (p = 0.0062), respectively. The brain-specific cholesterol metabolite 24S-hydroxycholesterol as well as its ratio to cholesterol increased by 19.7% (p = 0.0422) and 34.9% (p = 0.0013), respectively, while the concentrations of the other bile acid precursors, 7alpha-hydroxycholesterol and 27-hydroxycholesterol, remained unchanged. CONCLUSIONS: In conclusion, 4beta-hydroxycholesterol appears to be a sensitive endogenous surrogate marker in human serum for inhibition of CYP3A4 by itraconazole.

Effects of high-dose itraconazole treatment on lipoproteins in men.

OBJECTIVE: Epidemiological studies have convincingly demonstrated a positive association between LDL-cholesterol (LDL-C) and coronary artery disease but, in the case of HDL-C, there is an inverse association. Administration of high doses of the antifungal agent ketoconazole (800 mg/d) reduces serum concentrations of total cholesterol and LDL-C and there is a tendency for an increase in HDL-C. Our goal was to examine whether high-dose itraconazole raises HDL-C in subjects with normal levels of cholesterol. PATIENTS AND METHODS: 8 male patients with onychomycosis received 2 one-week cycles of treatment with itraconazole at a dose of 400 mg once daily in an open, prospective exploratory trial. Serum levels of itraconazole and its active metabolite hydroxyitraconazole were determined using high-performance liquid chromatography at the end of each treatment cycle. Fasting levels of serum lipoproteins and triglycerides were measured twice using routine enzymatic assays at the beginning and end of each cycle. The effects of itraconazole and hydroxyitraconazole on HDL-C metabolism were assessed in vitro using a human Caco-2 cell line and analyzing apoA-I levels with an enzyme-linked immunosorbent assay. RESULTS: During itraconazole treatment total cholesterol and LDL-C decreased on average by 12% (p < 0.001) and 17% (p < 0.001), respectively, whereas HDL-C increased by 21% (p < 0.001). The ratio LDL: HDL-C, an index of atherogenic risk, decreased by 30% (p < 0.001). Incubation of Caco-2 cells in the presence of itraconazole and hydroxyitraconazole for 3 hours resulted in a significant increase in apoA-I concentration in the medium (913 and 412%, respectively) compared with control. CONCLUSION: In addition to its inhibitory effect on cholesterol synthesis, high-dose itraconazole (400 mg/d) causes a significant decrease in serum LDL-C and, in contrast to ketoconazole, a significant increase in HDL-C. In vitro studies with Caco-2 cells indicate that the latter observation might be caused by an increase in apoA-I levels.

Cholestatic liver disease in adults may be due to an inherited defect in bile acid biosynthesis.

BACKGROUND: An increasing number of treatable inborn errors of bile acid synthesis have been described, primarily in infants with severe cholestatic liver disease. RESULTS: The present patient, whose two older siblings had died from progressive cholestatic liver disease, developed neonatal cholestasis and rickets but recovered during the childhood years and follow-up was terminated at 12 years of age. The patient presented again at 26 years of age with jaundice and pathological liver function tests. This was normalized upon treatment with ursodeoxycholic acid. Electrospray mass spectrometry of urine showed predominance of unsaturated bile acids, characteristic of 3beta-hydroxy-Delta5-C27-steroid dehydrogenase/isomerase (HSD3B7) deficiency. The activity of HSD3B7 in cultured fibroblasts was less than 5% of normal. A single homozygous mutation was found in exon 4 leading to an amino acid exchange (S162R) and loss of enzyme activity. CONCLUSION: This case illustrates that infants with an inherited absence of HSD3B7 may survive the neonatal period of life and childhood without treatment with bile acids. A low level of sulphation of the abnormal trihydroxy bile acid formed as a result of enzyme deficiency may be of importance for survival. The possibility that liver disease presenting in the adult may be due to a mutation in the HSD3B7 gene should be considered, especially in cases with familial occurrence of liver disease and earlier periods of liver dysfunction.

Regulation of alpha- and beta-secretase activity by oxysterols: cerebrosterol stimulates processing of APP via the alpha-secretase pathway.

The cholesterol 24-hydroxylase encoded by the gene CYP46 is expressed almost exclusively in central nervous system (CNS) neurons and catalyzes the formation of 24S-hydroxycholesterol (24S-OHC) from cholesterol. This conversion corresponds to a major pathway for excretion of excess cholesterol from the brain. There is a significant flux of another oxysterol, 27-hydroxycholesterol (27-OHC) from the circulation into the brain. Polymorphisms within the CYP46A1 gene have been associated with Alzheimer's disease (AD) incidence. In this study, we examined the effects of 24S-OHC and 27-OHC on the alpha- and beta-secretase activity in the human neuroblastoma cell line SH-SY5Y. Furthermore, we examined the effects of the two oxysterols on the levels of extra- and intracellular proteins of secreted APPalpha (sAPPalpha). Our findings suggest that 24S-OHC may exert a unique modulatory effect on APP processing and that this oxysterol increases the alpha-secretase activity as well as the alpha/beta-secretase activity ratio. The possibility is discussed that the ratio between 24S-OHC and 27-OHC is of importance for the generation of amyloid in the brain.

Unique patient with cerebrotendinous xanthomatosis. Evidence for presence of a defect in a gene that is not identical to sterol 27-hydroxylase.

Cerebrotendinous xanthomatosis (CTX) is a rare autosomal recessive disorder believed to be exclusively caused by mutations in the CYP27A1 gene coding for the enzyme sterol 27-hydroxylase. Common findings in CTX are tendon xanthomas, cataracts and progressive neurological dysfunction. Here, we characterize an adult female patient with tendon xanthomas and classic biochemical findings of CTX (i.e. high levels of bile alcohols and cholestanol and extremely low levels of 27-hydroxycholesterol in plasma). Additionally, sterol 27-hydroxylase activity in cultured monocyte-derived macrophages from this patient was <5% of normal. Sequencing the CYP27A1 gene uncovered that the patient is heterozygous for two previously undescribed base substitutions in exon 8, C478A and C479A, which are expected to affect the haeme-binding domain of the enzyme. When expressed in HEK293 cells, the corresponding protein had only 8% of normal enzymatic activity. No other mutation was found in the open reading frame of the CYP27A1 gene, intron-exon boundaries or in the 5'-untranslated region up to 5000 bp distal to the translational start site. Sequencing mRNA isolated from leucocytes from the patient revealed a 1 : 1 ratio of mutated and nonmutated species, with total mRNA levels that were not significantly different from the controls. It is concluded that the patient is heterozygous for two mutations affecting one allele of the CYP27A1 gene and with at least one additional yet undefined gene that is of critical importance for the activity of sterol 27-hydroxylase.

Crossing the barrier: oxysterols as cholesterol transporters and metabolic modulators in the brain.

A normal brain function requires constant levels of cholesterol, and the need for constancy seems to be higher here than in any other organ. Nature has met this need by isolation of brain cholesterol by a highly efficient blood-brain barrier. As a low synthesis of cholesterol is present in the brain, a mechanism for compensatory elimination is required. A decade ago we made the unexpected finding that the favoured mechanism for this involves conversion into 24S-hydroxycholesterol, followed by diffusion over the blood-brain barrier. Recent studies by us and others on this new pathway have given new insights into the mechanisms by which cholesterol homeostasis is maintained in the brain. We recently demonstrated a flux of another oxygenated product of cholesterol, 27-hydroxycholesterol, in the opposite direction. The latter flux may be important for neurodegeneration, and may be the link between hypercholesterolaemia and Alzheimer's disease. An overview of the above studies is presented and the possibility that the cholesterol 24S-hydroxylase in the brain may be important for memory and learning and that it may be a new drug target is discussed.

Oxysterols and Alzheimer's disease.

There is a clear link between cholesterol turnover and neurodegenerative diseases and hypercholesterolemia is an established risk factor for Alzheimer's disease (AD). The failure to demonstrate a transfer of cholesterol from the circulation into the brain in humans and experimental animals makes it difficult to explain the link between hypercholesterolemia and AD. In contrast to cholesterol itself, side-chain oxidized cholesterol metabolites such as 24S-hydroxycholesterol and 27-hydroxycholesterol are able to pass the blood-brain barrier (BBB). Formation of 24S-hydroxycholesterol is the quantitatively most important mechanism for elimination of cholesterol from the brain and we recently demonstrated a significant net uptake of 27-hydroxycholesterol by the brain from the circulation. We have also shown that patients with AD have increased brain levels of 27-hydroxycholesterol, which may affect the production of beta-amyloid in the brain. The levels of 27-hydroxycholesterol in the circulation are correlated with the levels of cholesterol and the possibility must be considered that the flux of 27-hydroxycholesterol into the brain is the missing link between hypercholesterolemia and Alzheimer's disease. Current knowledge about the role of the two oxysterols for cholesterol homeostasis in the brain as well as their diagnostic potential are reviewed.

Studies on LXR- and FXR-mediated effects on cholesterol homeostasis in normal and cholic acid-depleted mice.

As previously reported by us, mice with targeted disruption of the CYP8B1 gene (CYP8B1-/-) fail to produce cholic acid (CA), upregulate their bile acid synthesis, reduce the absorption of dietary cholesterol and, after cholesterol feeding, accumulate less liver cholesterol than wild-type (CYP8B1+/+) mice. In the present study, cholesterol-enriched diet (0.5%) or administration of a synthetic liver X receptor (LXR) agonist strongly upregulated CYP7A1 expression in CYP8B1-/- mice, compared to CYP8B1+/+ mice. Cholesterol-fed CYP8B1-/- mice also showed a significant rise in HDL cholesterol and increased levels of liver ABCA1 mRNA. A combined CA (0.25%)/cholesterol (0.5%) diet enhanced absorption of intestinal cholesterol in both groups of mice, increased their liver cholesterol content, and reduced their expression of CYP7A1 mRNA. The ABCG5/G8 liver mRNA was increased in both groups of mice, but cholesterol crystals were only observed in bile from the CYP8B1+/+ mice. The results demonstrate the cholesterol-sparing effects of CA: enhanced absorption and reduced conversion into bile acids. Farnesoid X receptor (FXR)-mediated suppression of CYP7A1 in mice seems to be a predominant mechanism for regulation of bile acid synthesis under normal conditions and, as confirmed, able to override LXR-mediated mechanisms. Interaction between FXR- and LXR-mediated stimuli might also regulate expression of liver ABCG5/G8.

Polymorphism in the coding part of the sterol 12alpha-hydroxylase gene does not explain the marked differences in the ratio of cholic acid and chenodeoxycholic acid in human bile.

OBJECTIVE: In humans, two primary bile acids are synthesized: cholic acid (CA) and chenodeoxycholic acid (CDCA), the first and rate-limiting enzyme being cholesterol 7alpha-hydroxylase (CYP7A1). CA has one more hydroxyl group at position 12alpha. This hydroxylation is carried out by the sterol 12alpha-hydroxylase (CYP8B1). Earlier, we and others have noticed a marked variation in the ratio between CA and CDCA in human bile. The aim of this study was to investigate whether this marked difference could be due to a genetic polymorphism in the gene of the CYP8B1. MATERIAL AND METHODS: Screening for genetic polymorphisms was carried out in a 2.4-kb-long area including the exon and part of the promoter region in subjects who had undergone cholecystectomy earlier, and where bile acid analysis had been performed. Among these subjects those with very high or low CA/CDCA ratios (ranging from 0.9 to 6.8) were investigated. The subjects were all female, normolipidaemic, having normal weight and a normal thyroid function. RESULTS: No polymorphisms were found in the investigated sequence. However, a statistically significant correlation was found between the activity of the CYP7A1 and the ratio between CA and CDCA. The difference in ratio could, at least in part, be explained by the difference in rate of bile acid synthesis. CONCLUSION: The difference in ratio between CA and CDCA cannot be explained by a polymorphism in the coding area of the CYP8B1.

Patients with atherosclerosis may have increased circulating levels of 27-hydroxycholesterol and cholestenoic acid.

Extrahepatic sterol 27-hydroxylase (CYP27) appears to have a role in the elimination of excess cholesterol from various cells, particularly macrophages, and there is a net flux of 27-hydroxyycholesterol and its metabolites from different extrahepatic sources to the liver. In this study we tested the hypothesis that patients with advanced atherosclerosis may have higher levels of 27-oxygenated products in the circulation than control subjects. Concordant with previous studies, a strong correlation was observed between circulating levels of 27-hydroxycholesterol and cholesterol, in both healthy subjects and subjects with hypercholesterolemia and documented atherosclerosis. A group of male subjects with normal or only slightly elevated serum cholesterol and rapidly progressing carotid atherosclerosis (n = 20) had serum levels of 27-oxygenated cholesterol not statistically different from those of a matched group of subjects with little or no development of atherosclerosis (n = 20). The situation was similar in a group of patients (n = 20) with advanced general atherosclerosis associated with severe clinical symptoms. Among the two groups of patients with atherosclerosis, a few patients had relatively high levels of 27-oxygenated products. Among the healthy controls, two healthy volunteers (brother and sister) were found to have high levels of 27-hydroxycholesterol, most probably due to genetic reasons. The possibility is discussed that the high levels of 27-oxygenated products in the circulation of a few patients with atherosclerosis may be related to high amounts of active macrophages present in atherosclerotic lesions. In view of the number of factors that could affect the levels in the circulation, other explanations cannot be ruled out. At the present state of knowledge, measurements of circulating levels of 27-oxygenated metabolites do not seem to add useful information about the atherosclerotic process.

Cholesterol treatment forever? The first Scandinavian trial of cholesterol supplementation in the cholesterol-synthesis defect Smith-Lemli-Opitz syndrome.

OBJECTIVES: To investigate if exogenous cholesterol affects sterol turnover in the cholesterol-synthesis defect Smith-Lemli-Opitz syndrome (SLOS) and if clinical effects justify long-time supplementation. The SLOS is caused by a deficiency of the enzyme 7-dehydrocholesterol-7-reductase with markedly reduced cholesterol levels and greatly increased levels of 7-dehydrocholesterol (7-DHC). DESIGN: Treatment with dietary cholesterol in patients with SLOS in a case series study. SETTING: All biochemical analyses were performed in one laboratory. The clinical follow-up was carried out by one of the authors (LS), a paediatric neurologist. SUBJECTS: Seven patients with biochemically verified SLOS have been diagnosed in Sweden and all of them are included in the study. INTERVENTIONS: Six patients were treated for 0.5-6 years orally with cholesterol and the bile acid taurocholate and one patient was supplemented with cholesterol only. MAIN OUTCOME MEASURES: In addition to cholesterol, 7- and 8-DHC, lathosterol was used as a marker of endogenous cholesterol synthesis and the patients were followed clinically. Nerve conduction velocities (NCV) were measured before treatment in all patients and a UVA-light test was performed in one of them. RESULTS: Lathosterol was initially increased by cholesterol supply in subjects with very low cholesterol levels with subsequent rise of 7- and 8-DHC. Photosensitivity clinically improved in all, verified by UVA-light testing in one. Progressive polyneuropathy improved, whilst stationary forms did not. CONCLUSION: Dietary cholesterol can up-regulate sterol turnover in severely affected patients. Although some specific features are treatable and verifiable by objective methods, data supporting life-long treatment dietary cholesterol in all SLO patients are still lacking.

Cerebrotendinous xanthomatosis: molecular characterization of two Scandinavian sisters.

Cerebrotendinous xanthomatosis (CTX) is a hereditary disorder, which is inherited as an autosomally recessive disease, causing production of cholesterol and cholestanol xanthomas and mental retardation. The disease is caused by mutations in the gene for sterol 27-hydroxylase (CYP27A1). The only CTX patients diagnosed in Scandinavia are two Norwegian sisters from a consanguineous marriage. Here we have characterized the mutation and its functional consequences for the enzyme. Analysis of genomic DNA from cultured fibroblasts identified a base exchange C > T in position 1441, causing arginine at amino acid position 441 to be replaced by tryptophan. The same mutation was introduced by mutagenesis in the complimentary DNA (cDNA) for CYP27, ligated into the expression vector pcDNA4/HisMax and transfected into HEK293 cells. The mutated enzyme had less than 5% of the enzyme activity compared with the native enzyme. No abnormal catalytic products could be identified in the cell culture medium. Probably the mutation affects the haem binding within the holoenzyme. The mutation has also previously been reported in a Japanese family. This is the second example of a CTX-causing mutation that has been recognized in more than one population.

Effects of combined treatment with pravastatin and ursodeoxycholic acid on hepatic cholesterol metabolism.

BACKGROUND: Treatment with ursodeoxycholic acid and also, to some degree, statins reduces cholesterol saturation of bile. The present study aimed [1] to study the effects of combined treatment with ursodeoxycholic acid and pravastatin on hepatic cholesterol metabolism and [2] to evaluate if the addition of pravastatin to ursodeoxycholic acid treatment has beneficial effects on the lipid composition of gallbladder bile in gallstone patients. MATERIALS AND METHODS: Nineteen patients with cholesterol gallstones were subjected to combined treatment with ursodeoxycholic acid (500 mg bid) and pravastatin (20 mg bid) for three weeks before cholecystectomy. Eleven patients received ursodeoxycholic acid only and 20 untreated gallstone patients served as controls. Gallbladder bile was collected, and for both the patients receiving combined treatment and the controls a liver biopsy was also obtained peroperatively. RESULTS: The cholesterol saturation of bile averaged 59% in the patients on combined treatment, 60% in the ursodeoxycholic acid-treated patients, and 130% in the untreated controls. In the patients receiving ursodeoxycholic acid, this bile salt constituted approximately 60% of all bile salts. The patients receiving combined treatment had reduced cholesterol synthesis, as reflected by a 45% reduction in serum lathosterol. The activity and the mRNA levels of cholesterol 7 alpha-hydroxylase and the mRNA levels for the low density lipoprotein-receptor were not significantly affected. CONCLUSIONS: Pravastatin does not further reduce the cholesterol saturation of bile in gallstone patients treated with ursodeoxycholic acid, although hepatic cholesterol synthesis is inhibited. The study supports the important concept that de novo synthesized cholesterol is not particularly important for biliary cholesterol secretion in humans.