PREGNANE X RECEPTOR REGULATION OF BILE ACID METABOLISM AND CHOLESTEROL HOMEOSTASIS

Li, Tiangang

January 2006

No description available.

PXR

BILE

BILE ACID

HNF4¿¿¿¿

CYP7A1

CHOLESTEROL

rifampicin

CYTOKINE REPRESSION OF THE HUMAN STEROL 12α-HYDROXYLASE (CYP8B1) GENE; AN ALTERNATIVE MECHANISM FOR BILE ACIDSUPPRESSION OF CYP8B1

Bhatt, Asmeen

07 March 2006

No description available.

Biology, Molecular

HNF4¿¿¿¿

CYP8B1

BILE

BILE ACID

1¿¿¿¿

CYP7A1

cholesterol

VITAMIN D RECEPTOR REGULATION OF CHOLESTEROL 7α-HYDROXYLASE GENE TRANSCRIPTION AND BILE ACID SYNTHESIS IN HUMAN HEPATOCYTES

Han, Shuxin

06 November 2009

No description available.

Biomedical Research

VDR

BILE

BILE ACID

CYP7A1

1¿¿¿¿

2-VD3

ERK1/2

Effect of β-glucan molecular weight and viscosity on the mechanism of cholesterol lowering in humans

Wang, Yanan

13 January 2016

The cholesterol-lowering effect of mixed linkage (1→3) (1→4)-β-D-glucans (β-glucan) from barley has been documented, yet the underlying mechanism responsible for this action and factors influencing it, such as physicochemical properties of β-glucan and genetic background of an individual, remain unclear.As a component of dietary fibre, β-glucan also has the potential to shift the gut microbial community, however, whether alterations in the gut microbiota are associated with the physiological effects of β-glucan have yet to be determined. This study was designed to assess the effects of β-glucan molecular weight (MW) and dose on loweringserum cholesterol levels and to elucidate its mechanism of action in human subjects. Additionally, this study examined gene-diet interactions as well as changes in the gut microbiota profile following consumption of barley foods. In a controlled four phase crossover trial, mildly hypercholesterolemic but otherwise healthy subjects (n =30) were randomly assigned to receive breakfasts containing 3g high MW (HMW), 5g low molecular weight (LMW), 3g LMW barley β-glucan or a control diet with wheat and rice (WR control), each for 5 weeks. The washout period between the phases was 4 weeks. The consumption of 3g/d HMW diet lowered total cholesterol (TC) compared with WR control diet (P =0.0046), but not the LMW diet at either 3g/d or 5g/d. Individuals with the SNP rs3808607-G allele of CYP7A1 had greater TC reduction in response to 3g/d HMW β-glucan diet compared to the individuals carrying homozygous TT alleles (P<0.01). Cholesterol absorption and synthesis were not changed, but bile acid synthesis increased by 3g/d HMW diet compared to the control. Consuming 3g HMW/d β-glucan altered gut microbiota at the phylum and genus levels and the impacted microbial members was correlated with favorable shifts of cardiovascular disease risk factors. In conclusion, physicochemical properties of β-glucan play critical roles in the cholesterol-lowering effect and gut microbiota alteration ability of β-glucan. The results suggest the increasing bile acid synthesis rather than inhibiting cholesterol absorption and synthesis is the mechanism responsible for the cholesterol reducing property of β-glucan.The altered microbiota profile by HMW β-glucan is associated with its physiological effect. / February 2016

β-glucan

molecular weight

viscosity

cholesterol

CYP7A1

bile acid

mechanism

microbiota

cardiovascular disease

cholesterol absorption

cholesterol synthesis

Význam biosyntetické a katabolické dráhy cholesterolu u nádorových a zánětlivých onemocnění / The importance of biosynthetic and catabolic pathway of cholesterol in inflammatory and tumor diseases

Leníček, Martin

January 2011

This thesis focuses on the importance of intermediate products of biosynthetic and catabolic pathway of cholesterol. The aim of the first part of the thesis is mainly to investigate, whether statins (HMG- CoA reductase inhibitors) possess antitumor properties and to compare the differences in antitumor potential of individual statins. The other part of the thesis aims at the utilization of 7α-hydroxycholest-4-en-3-one (C4), a promising marker of cholesterol 7α-monooxygenase (CYP7A1) activity and bile acid malabsorption. We demonstrated antitumor effect of statins on an experimental model of pancreatic cancer. Individual statins, however, differed significantly in their efficacy, depending on their physico-chemical properties. Our data suggests, that the most likely (but not the only) mechanism of antitumor effect of statins is decreased prenylation of signaling proteins, especially Ras protooncogene. We set up a reliable method for measurement of C4, which facilitated our research in CYP7A1 regulation. We demonstrated, that promoter polymorphism -203A>C might affect CYP7A1 activity, that diurnal variability of CYP7A1 activity might be triggered by insulin, and that insulin resistance in patients with non-alcoholic fatty liver disease impedes the feedback regulation of CYP7A1, which may lead to disease...

Význam biosyntetické a katabolické dráhy cholesterolu u nádorových a zánětlivých onemocnění / The importance of biosynthetic and catabolic pathway of cholesterol in inflammatory and tumor diseases

Leníček, Martin

January 2011

This thesis focuses on the importance of intermediate products of biosynthetic and catabolic pathway of cholesterol. The aim of the first part of the thesis is mainly to investigate, whether statins (HMG- CoA reductase inhibitors) possess antitumor properties and to compare the differences in antitumor potential of individual statins. The other part of the thesis aims at the utilization of 7α-hydroxycholest-4-en-3-one (C4), a promising marker of cholesterol 7α-monooxygenase (CYP7A1) activity and bile acid malabsorption. We demonstrated antitumor effect of statins on an experimental model of pancreatic cancer. Individual statins, however, differed significantly in their efficacy, depending on their physico-chemical properties. Our data suggests, that the most likely (but not the only) mechanism of antitumor effect of statins is decreased prenylation of signaling proteins, especially Ras protooncogene. We set up a reliable method for measurement of C4, which facilitated our research in CYP7A1 regulation. We demonstrated, that promoter polymorphism -203A>C might affect CYP7A1 activity, that diurnal variability of CYP7A1 activity might be triggered by insulin, and that insulin resistance in patients with non-alcoholic fatty liver disease impedes the feedback regulation of CYP7A1, which may lead to disease...

The effect of exercise training on cholesterol and bile acid metabolism in ovariectomized rats

Farahnak, Zahra

11 1900

Il existe un nombre grandissant de preuves au cours des dernières années que la diminution de la sécrétion des œstrogènes chez les animaux ovariectomisés (Ovx) et chez les femmes ménopausées conduit à une accumulation importante de triglycérides (TG) dans le foie. Cependant, les évidences de perturbations dans le métabolisme du cholestérol, en lien avec la diminution des œstrogènes, sont limitées à des observations de niveaux élevés de cholestérol total dans le plasma trouvés chez la femme ainsi que chez les animaux. En fait, l'impact de la suppression des œstrogènes sur le métabolisme du cholestérol dans le foie a reçu peu d'attention et montre quelques controverses. Par conséquent, les trois études présentées dans cette thèse ont été réalisées chez des rats Ovx, comme modèle animal de femmes post-ménopausées, afin de documenter les effets du retrait des œstrogènes sur les marqueurs moléculaires clés du métabolisme du cholestérol et des acides biliaires dans le foie et dans l'intestin et des effets potentiels de l’entraînement physique. Il a été en effet démontré que l'entraînement physique peut réduire le niveau plasmatique de cholestérol. Une amélioration du transport du cholestérol en périphérie vers le foie pour sa sécrétion subséquente dans la bile et pour son l'excrétion de l'organisme a été suggérée, bien que les mécanismes sous-jacents ne soient pas entièrement compris. Dans la première étude, nous avons démontré que les rattes Ovx nourris avec une diète standard et une diète standard + cholestérol avait un taux de cholestérol total dans le foie plus élevé (P <0,05) que les rattes avec une ovariectomie simulée (Sham) nourris avec ces deux derniers types de diète, tandis que la teneur en triglycérides du foie était plus élevée chez les rattes Ovx que chez les rattes Sham nourris avec une diète standard, une diète standard + cholestérol et aussi une diète riche en grasses + cholestérol. Étonnement, la diète standard + cholestérol a été associée à un niveau plasmatique plus faible (P <0,001) de cholestérol total et de triglycérides chez les rats Ovx que les rats Sham, ce qui suggère une diminution de la sécrétion de lipoprotéines à très basses densités (VLDL). Par conséquent, la transcription de plusieurs marqueurs clés de la synthèse des VLDL, y compris la microsomal triglyceride transfer Protein (MTP) et apoB-100, ont été réduites (P <0,05) chez les rattes Ovx par rapport aux rattes Sham nourris avec tous les trois types diètes et cette diminution de MTP et apoB-100 était plus prononcée chez les rats nourris avec la diète standard + cholestérol. Pour aller un peu plus loin, dans la deuxième étude, nous avons déterminé les effets de l'entraînement physique sur les marqueurs clés hépatiques de la voie farnesoid X receptor (FXR) - small heterodimer partner (SHP) - de cholestérol 7 alpha-hydroxylase (CYP7A1) (FXR-SHP-CYP7A1) impliquée dans la conversion de cholestérol en acides biliaires et de leur excrétion chez les rat Ovx nourris avec une diète standard + cholestérol. Notre groupe expérimental principal comprenait des rats Ovx nourris avec une diète riche en cholestérol (Ovx-Chol). Ce groupe a été comparé à un groupe de rats Ovx nourris avec une diète standard (Ovx-SD) et un groupe de rats Sham nourris avec une diète riche en cholestérol (Sham-Chol) pour observer, respectivement, l'effet de l'alimentation et l’effet du retrait de l'œstrogène. Les résultats de cette étude ont démontré que les niveaux de cholestérol total dans le plasma et dans le foie ne sont pas affectés par l'entraînement physique dans aucune des conditions expérimentales. L'alimentation en cholestérol a induit une accumulation plus importante chez les rats Sham et Ovx a mené à une accumulation du cholestérol dans le foie significativement plus élevée (P <0,001) que chez les rats Ovx-SD. Un effet principal d'entraînement physique (P <0,05) a été trouvée dans l’expression génique du SHP et de CYP7A1. Ce dernier gène est reconnu pour son implication majeure sur le contrôle de la biosynthèse des acides biliaires à partir du cholestérol. De plus, cette étude a montré que le récepteurs des LDL (LDL-R) et proprotein convertase subtilisin/kexin type 9 (PSCK9) au foie, qui sont impliqués dans l'absorption du cholestérol de la circulation, ne sont pas influencés par l’entraînement physique. Ces résultats suggèrent que l'entraînement physique module le métabolisme du cholestérol chez les animaux Ovx par un réglage positif de la formation des acides biliaires. Un nombre croissant de preuves récentes suggèrent que le transport inverse du cholestérol (RCT) peut également passer par une voie non-biliaire connue sous le nom « transintestinal cholesterol excretion » (TICE). En effet, le foie et l'intestin sont impliqués dans l'excrétion du cholestérol excédentaire du corps. Dans cette optique, dans la troisième étude, nous avons élargi nos recherches afin de déterminer si l'entraînement physique module l’expression des récepteurs de cholestérol de la membrane intestinale qui sont impliqués dans TICE chez les rats intacts et Ovx nourris avec une diète standard et une diète riche en cholestérol. Les résultats de cette étude ont montré que l'entraînement physique a augmenté (P <0,01) l’expression génique intestinale de LDL-R et de PCSK9 impliquées dans la captation du cholestérol intestinal de la circulation et de leur récepteur nucléaire, « sterol regulatory element-binding protein 2 » (SREBP2) (P <0,05) chez les rats Sham et Ovx par rapport aux rats sédentaires (Sed). D'autre part, l’expression des gènes hépatiques de LDL-R et de PCSK9 ont été supprimées (P <0,01) par l’alimentation riche en cholestérol, mais pas affectée par l'entraînement physique. L'expression du gène « flavin monooxygénase 3 » (FMO3), en tant que régulateur de l'équilibre du cholestérol dans le foie, a été diminuée de façon significative (P <0,01) par le cholestérol alimentaire chez les rats Sham et Ovx par rapport aux rats nourris avec la diète standard, mais demeure inchangée suite à l'entraînement physique et le retrait des œstrogènes. Un réglage positif de l'expression de gènes du LDL-R et PCSK9 intestinale par l'entraînement physique chez les rats intacts et Ovx suggère que l'entraînement physique peut contribuer à l’accroissement de l'élimination de cholestérol par la voie TICE. Dans l'ensemble, nos résultats indiquent qu'une combinaison d’une diète riche en cholestérol et un retrait des œstrogènes a mené à une diminution de l'expression des gènes des marqueurs essentiels de la synthèse de VLDL, ce qui implique une réduction de l'excrétion du cholestérol du foie. Il semble que la réduction de LDL-R hépatique pourrait être due à l'accumulation du cholestérol dans le foie. De plus, nos résultats ont présenté l’entraînement physique comme une intervention non pharmacologique appropriée pour stimuler l'excrétion du cholestérol excédentaire de l'organisme par le réglage positif des gènes impliqués dans la biosynthèse des acides biliaires dans le foie et les récepteurs intestinaux de cholestérol dans la voie TICE. / There has been accumulating evidence in recent years that the estrogen deficient state in ovariectomized (Ovx) animals and in postmenopausal women results in substantial liver triglyceride (TG) accumulation. However, evidence of disturbances in cholesterol metabolism in link with estrogen deficiency is limited to observations of higher plasma total cholesterol levels found in human as well as in animals. In fact, the impact of estrogen withdrawal on liver cholesterol metabolism has received little attention and shows some controversies. Therefore, the three studies presented in this thesis have been conducted in Ovx rats, as an animal model of post-menopausal women, to investigate the effects of estrogen withdrawal on key molecular markers of cholesterol and bile acid metabolism in liver and in transintestinal cholesterol excretion (TICE), and also to determine the potential role of exercise training as a positive alternative intervention. It has been shown that exercise training can improve plasma cholesterol levels. An enhanced transport of peripheral cholesterol toward the liver for subsequent secretion into bile and excretion from the body has been suggested; however, the underlying mechanism for this action is not fully understood. In the first study, we showed that estrogen withdrawal was associated with higher (P < 0.05) liver total cholesterol under the standard diet and the standard diet + cholesterol diet, while liver triglyceride (TG) content was higher in Ovx than in Sham rats in all three dietary conditions which are the standard diet, the standard diet + cholesterol and the high fat diet + cholesterol. Surprisingly, the standard diet + cholesterol was associated with lower (P < 0.001) plasma total cholesterol and TG levels in Ovx than in Sham rats, suggesting a decrease in very low-density lipoprotein (VLDL) secretion. Accordingly, several transcripts of key markers of VLDL synthesis including microsomal triglyceride transfer protein (MTP) and apoB-100 were decreased (P < 0.05) in Ovx compared to Sham rats under the three dietary conditions and even more so for MTP and apoB-100 when rats were fed the standard diet + cholesterol. To go one step further, in the second study we determined the effects of exercise training on hepatic key markers of farnesoid X receptor (FXR)-small heterodimer partner (SHP)-cholesterol 7 alpha-hydroxylase (CYP7A1) (FXR-SHP-CYP7A1) pathway, involved in cholesterol conversion into bile acid and excretion from the body, in Ovx cholesterol fed rats. Our main experimental group was Ovx rats fed a high cholesterol diet (Ovx-Chol) that was compared, on one hand, to a group of Ovx rats fed a standard diet (Ovx-SD) to observe the effects of the diet and, on the other hand, compared to a group of Sham operated rats fed the cholesterol diet (Sham-Chol) to observe the effect of estrogen withdrawal. Results of this study showed that plasma and liver total cholesterol levels were not affected by exercise training in any of the experimental conditions. Cholesterol feeding in both Sham and Ovx rats resulted in significantly (P<0.001) higher hepatic cholesterol accumulation than in Ovx-SD rats. A main effect of training (P< 0.05) was, however, found for transcripts of SHP and CYP7A1. The SHP and CYP7A1 transcripts were increased by training. These results suggest that exercise training through up-regulation of genes involved in bile acid formation may modulate cholesterol metabolism in Ovx animals. Finally, a recent growing body of evidence suggests that reverse cholesterol transport (RCT) can also proceed through a non-biliary pathway known as transintestinal cholesterol excretion (TICE). Indeed, both liver and intestine are involved in excretion of the excess cholesterol from the body. Based on this concept, we expanded our research to determine whether exercise training has an effect on intestinal membrane cholesterol receptors involved in TICE pathway in intact and Ovx rats fed a normal and a high cholesterol diet. Results of the third study showed that exercise training increased (P< 0.01) transcripts of intestinal LDL-R and PCSK9, which are involved in intestinal cholesterol uptake from circulation, and their nuclear transcription factor, intestinal sterol regulatory element-binding protein 2 (SREBP2) (P< 0.05) in both Sham and Ovx rats compared to rats remaining sedentary (Sed). On the other hand, hepatic LDL-R and PCSK9 gene expression was suppressed (P< 0.01) by cholesterol feeding but not affected by exercise training. Flavin monooxygenase 3 (FMO3) gene expression, as a cholesterol balance regulator in liver, was significantly decreased (P<0.01) by cholesterol feeding in both Sham and Ovx rats compared to rats were fed the SD diet but unchanged following exercise training and estrogen withdrawal. An up-regulation of intestinal gene expression of LDL-R and PCSK9 following voluntary wheel running in intact and Ovx rats suggests that exercise training may contribute to increased cholesterol elimination through the TICE pathway. Overall, our results indicate that a high cholesterol diet and ovariectomy combine to decrease the gene expression of key markers of VLDL synthesis suggesting a reduction in cholesterol excretion from the liver. Alternatively, it seems that reduced hepatic LDL-R transcript found in Ovx animals might be due to hepatic cholesterol accumulation. Moreover, our findings introduced exercise training as an appropriate non-pharmacological intervention to stimulate the excretion of the excess cholesterol from the body through upregulation of genes involved in bile acid biosynthesis in liver and intestinal basolateral cholesterol transporters in TICE.

Ovariectomie

Rat

Diète riche en cholestérol

assemblage VLDL

LDL-R

PCSK9

Entraînement physique

CYP7A1

voie TICE

Ovariectomy

Rat

High cholesterol diet

VLDL assembly

LDL-R

PCSK9

Hepatic cholesterol accumulation

Exercise training

CYP7A1

TICE pathway

Biological Roles of the Vitamin D Receptor in the Regulation of Transporters and Enzymes on Drug Disposition, Including Cytochrome P450 (CYP7A1) on Cholesterol Metabolism

Chow, Edwin C. Y.

15 August 2013

Nuclear receptors play significant roles in the regulation of transporters and enzymes to balance the level of endogenous molecules and to protect the body from foreign molecules. The vitamin D receptor (VDR) and its natural ligand, 1alpha,25-dihydroxyvitamin D3 [1,25(OH)2D3], was shown to upregulate rat ileal apical sodium dependent bile acid transporter (Asbt) to increase the reclamation of bile acids, ligands of the farnesoid X receptor (FXR). FXR is considered to be an important, negative regulator of the cholesterol metabolizing enzyme, Cyp7a1, which metabolizes cholesterol to bile acids in the liver. In rats, decreased Cyp7a1 and increased P-glycoprotein/multidrug resistance protein 1 (P-gp/Mdr1) expressions pursuant to 1,25(OH)2D3 treatment was viewed as FXR effects in which hepatic VDR protein is poorly expressed. In contrast, changes in rat intestinal and renal transporters such as multidrug resistance associated proteins (Mrp2, Mrp3, and Mrp4), Asbt, and P-gp after administration of 1,25(OH)2D3 were attributed directly as VDR effects due to higher VDR levels expressed in these tissues. Higher VDR expressions were found among mouse hepatocytes compared to those in rats. Hence, fxr(-/-) and fxr(+/+) mouse models were used to discriminate between VDR vs. FXR effects in murine livers. Hepatic Cyp7a1 in mice was found to be upregulated with 1,25(OH)2D3 treatment, via the derepression of the short heterodimer partner (SHP). Putative VDREs, identified in mouse and human SHP promoters, were responsible for the inhibitory effect on SHP. The increase in hepatic Cyp7a1 expression and decreased plasma and liver cholesterol were observed in mice prefed with a Western diet. A strong correlation was found between tissue Cyp7a1 and P-gp changes and 1,25(OH)2D3 plasma and tissue concentrations, confirming that VDR plays an important role in the disposition of xenobiotics and cholesterol metabolism. Moreover, renal and brain Mdr1a/P-gp were found to be directly upregulated by the VDR in mice, and concomitantly, increased renal and brain secretion of digoxin, a P-gp substrate, in vivo. The important observations: the cholesterol lowering and increased brain P-gp efflux activity properties suggest that VDR is a therapeutic target for treatment of hypercholesterolemia and Alzheimer’s diseases, since beta amyloid, precursors of plague, are P-gp substrates.

Vitamin D Receptor (VDR)

transporters

enzymes

calcitriol or 1,25(OH)2D3

P-glycoprotein (P-gp)

cholesterol metabolizing enzyme

CYP7A1

short heterodimer partner (SHP)

farnesoid X receptor (FXR)

multidrug resistance protein 1 (MDR1)

bile acids

cholesterol

homeostasis

nuclear receptor

0491

0419

0572

Biological Roles of the Vitamin D Receptor in the Regulation of Transporters and Enzymes on Drug Disposition, Including Cytochrome P450 (CYP7A1) on Cholesterol Metabolism

Chow, Edwin C. Y.

15 August 2013

Nuclear receptors play significant roles in the regulation of transporters and enzymes to balance the level of endogenous molecules and to protect the body from foreign molecules. The vitamin D receptor (VDR) and its natural ligand, 1alpha,25-dihydroxyvitamin D3 [1,25(OH)2D3], was shown to upregulate rat ileal apical sodium dependent bile acid transporter (Asbt) to increase the reclamation of bile acids, ligands of the farnesoid X receptor (FXR). FXR is considered to be an important, negative regulator of the cholesterol metabolizing enzyme, Cyp7a1, which metabolizes cholesterol to bile acids in the liver. In rats, decreased Cyp7a1 and increased P-glycoprotein/multidrug resistance protein 1 (P-gp/Mdr1) expressions pursuant to 1,25(OH)2D3 treatment was viewed as FXR effects in which hepatic VDR protein is poorly expressed. In contrast, changes in rat intestinal and renal transporters such as multidrug resistance associated proteins (Mrp2, Mrp3, and Mrp4), Asbt, and P-gp after administration of 1,25(OH)2D3 were attributed directly as VDR effects due to higher VDR levels expressed in these tissues. Higher VDR expressions were found among mouse hepatocytes compared to those in rats. Hence, fxr(-/-) and fxr(+/+) mouse models were used to discriminate between VDR vs. FXR effects in murine livers. Hepatic Cyp7a1 in mice was found to be upregulated with 1,25(OH)2D3 treatment, via the derepression of the short heterodimer partner (SHP). Putative VDREs, identified in mouse and human SHP promoters, were responsible for the inhibitory effect on SHP. The increase in hepatic Cyp7a1 expression and decreased plasma and liver cholesterol were observed in mice prefed with a Western diet. A strong correlation was found between tissue Cyp7a1 and P-gp changes and 1,25(OH)2D3 plasma and tissue concentrations, confirming that VDR plays an important role in the disposition of xenobiotics and cholesterol metabolism. Moreover, renal and brain Mdr1a/P-gp were found to be directly upregulated by the VDR in mice, and concomitantly, increased renal and brain secretion of digoxin, a P-gp substrate, in vivo. The important observations: the cholesterol lowering and increased brain P-gp efflux activity properties suggest that VDR is a therapeutic target for treatment of hypercholesterolemia and Alzheimer’s diseases, since beta amyloid, precursors of plague, are P-gp substrates.

Vitamin D Receptor (VDR)

transporters

enzymes

calcitriol or 1,25(OH)2D3

P-glycoprotein (P-gp)

cholesterol metabolizing enzyme

CYP7A1

short heterodimer partner (SHP)

farnesoid X receptor (FXR)

multidrug resistance protein 1 (MDR1)

bile acids

cholesterol

homeostasis

nuclear receptor

0491

0419

0572