Your search keyword '"Turley P"' showing total 29 results

1. In memoriam: John M. Dietschy Sr., MD (1932–2020)

Author

Stephen D. Turley, Jay D. Horton, John M. Andersen, and John S. Fordtran

Subjects

Biochemistry, QD415-436

Published

2021

2. Quantitative role of LAL, NPC2, and NPC1 in lysosomal cholesterol processing defined by genetic and pharmacological manipulations

Author

Charina M. Ramirez, Benny Liu, Amal Aqul, Anna M. Taylor, Joyce J. Repa, Stephen D. Turley, and John M. Dietschy

Subjects

Niemann-Pick type C disease, Wolman disease, liver disease, neurodegeneration, macrophage, inflammation, Biochemistry, QD415-436

Abstract

Lipoprotein cholesterol taken up by cells is processed in the endosomal/lysosomal (E/L) compartment by the sequential action of lysosomal acid lipase (LAL), Niemann-Pick C2 (NPC2), and Niemann-Pick C1 (NPC1). Inactivation of NPC2 in mouse caused sequestration of unesterified cholesterol (UC) and expanded the whole animal sterol pool from 2,305 to 4,337 mg/kg. However, this pool increased to 5,408 and 9,480 mg/kg, respectively, when NPC1 or LAL function was absent. The transport defect in mutants lacking NPC2 or NPC1, but not in those lacking LAL, was reversed by cyclodextrin (CD), and the ED50 values for this reversal varied from ∼40 mg/kg in kidney to >20,000 mg/kg in brain in both groups. This reversal occurred only with a CD that could interact with UC. Further, a CD that could interact with, but not solubilize, UC still overcame the transport defect. These studies showed that processing and export of sterol from the late E/L compartment was quantitatively different in mice lacking LAL, NPC2, or NPC1 function. In both npc2−/− and npc1−/− mice, the transport defect was reversed by a CD that interacted with UC, likely at the membrane/bulk-water interface, allowing sterol to move rapidly to the export site of the E/L compartment.

Published

2011

3. Cyclodextrin overcomes the transport defect in nearly every organ of NPC1 mice leading to excretion of sequestered cholesterol as bile acid

Author

Benny Liu, Charina M. Ramirez, Anna M. Miller, Joyce J. Repa, Stephen D. Turley, and John M. Dietschy

Subjects

Niemann-Pick type C, neurodegeneration, liver, lung, lysosome, macrophage, Biochemistry, QD415-436

Abstract

A mutation in NPC1 leads to sequestration of unesterified cholesterol in the late endosomal/lysosomal compartment of every cell culminating in the development of pulmonary, hepatic, and neurodegenerative disease. Acute administration of 2-hydroxypropyl-β-cyclodextrin (CYCLO) rapidly overcomes this transport defect in both the 7-day-old pup and 49-day-old mature npc1−/− mouse, even though this compound is cleared from the body and plasma six times faster in the mature mouse than in the neonatal animal. The liberated cholesterol flows into the cytosolic ester pool, suppresses sterol synthesis, down-regulates SREBP2 and its target genes, and reduces expression of macrophage-associated inflammatory genes. These effects are seen in the liver and brain, as well as in peripheral organs like the spleen and kidney. Only the lung appears to be resistant to these effects. Forty-eight h after CYCLO administration to the 49-day-old animals, fecal acidic, but not neutral, sterol output increases, whole-animal cholesterol burden is reduced, and the hepatic and neurological inflammation is ameliorated. However, lifespan is extended only when the CYCLO is administered to the 7-day-old animals. These studies demonstrate that CYCLO administration acutely reverses the cholesterol transport defect seen in the NPC1 mouse at any age, and this reversal allows the sequestered sterol to be excreted from the body as bile acid.

Published

2010

4. ABCA1 plays no role in the centripetal movement of cholesterol from peripheral tissues to the liver and intestine in the mouse

Author

Chonglun Xie, Stephen D. Turley, and John M. Dietschy

Subjects

ATP binding cassette transporter A1, Tangier disease, low density lipoprotein transport, high density lipoprotein transport, cholesterol synthesis, cholesterol absorption, Biochemistry, QD415-436

Abstract

This study uses the mouse to explore the role of ABCA1 in the movement of this cholesterol from the peripheral organs to the endocrine glands for hormone synthesis and liver for excretion. The sterol pool in all peripheral organs was constant and equaled 2,218 and 2,269 mg/kg, respectively, in abca1+/+ and abca1−/− mice. Flux of cholesterol from these tissues equaled the rate of synthesis plus the rate of LDL-cholesterol uptake and was 49.9 mg/day/kg in control animals and 62.0 mg/day/kg in abca1−/− mice. In the abca1+/+ animals, this amount of cholesterol moved from HDL into the liver for excretion. In the abca1−/− mice, the cholesterol from the periphery also reached the liver but did not use HDL. Fecal excretion of cholesterol was just as high in abac1−/− mice (198 mg/day/kg) as in the abac1+/+ animals (163 mg/day/kg), although the abac1−/− mice excreted relatively more neutral than acidic sterols. This study established that ABCA1 plays essentially no role in the turnover of cholesterol in peripheral organs or in the centripetal movement of this sterol to the endocrine glands, liver, and intestinal tract for excretion.

Published

2009

5. GM2/GD2 and GM3 gangliosides have no effect on cellular cholesterol pools or turnover in normal or NPC1 mice

Author

Hao Li, Stephen D. Turley, Benny Liu, Joyce J. Repa, and John M. Dietschy

Subjects

Niemann-Pick type C disease, membrane cholesterol, glycosphingolipids, neurodegeneration, cholesterol synthesis, brain cholesterol, Biochemistry, QD415-436

Abstract

These studies investigated the role of gangliosides in governing the steady-state concentration and turnover of unesterified cholesterol in normal tissues and in those of mice carrying the NPC1 mutation. In animals lacking either GM2/GD2 or GM3 synthase, tissue cholesterol concentrations and synthesis rates were normal in nearly all organs, and whole-animal sterol pools and turnover also were not different from control animals. Mice lacking both synthases, however, had small elevations in cholesterol concentrations in several organs, and the whole-animal cholesterol pool was marginally elevated. None of these three groups, however, had changes in any parameter of cholesterol homeostasis in the major regions of the central nervous system. When either the GM2/GD2 or GM3 synthase activity was deleted in mice lacking NPC1 function, the clinical phenotype was not changed, but lifespan was shortened. However, the abnormal cholesterol accumulation seen in the tissues of the NPC1 mouse was unaffected by loss of either synthase, and clinical and molecular markers of hepatic and cerebellar disease also were unchanged. These studies demonstrate that hydrophobic interactions between cholesterol and various gangliosides do not play an important role in determining cellular cholesterol concentrations in the normal animal or in the mouse with the NPC1 mutation.

Published

2008

6. Genetic variations and treatments that affect the lifespan of the NPC1 mouse

Author

Benny Liu, Hao Li, Joyce J. Repa, Stephen D. Turley, and John M. Dietschy

Subjects

cyclodextrin, allopregnanolone, neurodegeneration, nuclear receptors, lysosomes, gangliosides, Biochemistry, QD415-436

Abstract

Niemann-Pick type C (NPC) disease is a multisystem disorder caused primarily by a mutation in the npc1 gene. These studies evaluated the effect of genetic background, deletion of additional genes, and administration of several agents on the age at death in a murine model of this disorder. Such factors as differing strain background or genetic drift within a given background in the npc1−/− mouse significantly altered the age at death and the degree of organ disease. Genetic deletion of Siat9 (GM3 synthetase) or Nr1h2 [liver X receptor (LXR)β] shortened the life of the npc1−/− animals. Daily treatment of the npc1−/− mice with an LXR agonist or administration of a single dose of cyclodextrin, with or without the neurosteroid allopregnanolone, significantly slowed neurodegeneration and increased the lifespan of these animals. These data illustrate that the age at death of the npc1−/− mouse can be significantly influenced by many factors, including differences in strain background, other inactivating gene mutations (Siat9 and lxrβ), and administration of agents such as LXR agonists and, particularly, cyclodextrin. It is currently not clear which of these effects is nonspecific or which might relate directly to the molecular defect present in the NPC1 syndrome.

Published

2008

7. Receptor-mediated and bulk-phase endocytosis cause macrophage and cholesterol accumulation in Niemann-Pick C disease

Author

Benny Liu, Chonglun Xie, James A. Richardson, Stephen D. Turley, and John M. Dietschy

Subjects

hepatic dysfunction, lung failure, low density lipoprotein receptor, lysosomal cholesterol, apoptosis, neurodegeneration, Biochemistry, QD415-436

Abstract

These studies explored the roles of receptor-mediated and bulk-phase endocytosis as well as macrophage infiltration in the accumulation of cholesterol in the mouse with Niemann-Pick type C (NPC) disease. Uptake of LDL-cholesterol varied from 514 μg/day in the liver to zero in the central nervous system. In animals lacking LDL receptors, liver uptake remained about the same (411 μg/day), but more cholesterol was taken up in extrahepatic organs. This uptake was unaffected by the reductive methylation of LDL and consistent with bulk-phase endocytosis. All tissues accumulated cholesterol in mice lacking NPC1 function, but this accumulation was decreased in adrenal, unchanged in liver, and increased in organs like spleen and lung when LDL receptor function was also deleted. Over 56 days, the spleen and lung accumulated amounts of cholesterol greater than predicted, and these organs were heavily infiltrated with macrophages. This accumulation of both cholesterol and macrophages was increased by deleting LDL receptor function. These observations indicate that both receptor-mediated and bulk-phase endocytosis of lipoproteins, as well as macrophage infiltration, contribute to the cholesterol accumulation seen in NPC disease. These macrophages may also play a role in parenchymal cell death in this syndrome.

Published

2007

8. Lysosomal unesterified cholesterol content correlates with liver cell death in murine Niemann-Pick type C disease

Author

Eduardo P. Beltroy, Benny Liu, John M. Dietschy, and Stephen D. Turley

Subjects

hepatic dysfunction, chylomicron cholesterol, low density lipoprotein receptor, biliary bile acid, hepatomegaly, small intestine, Biochemistry, QD415-436

Abstract

Niemann-Pick type C (NPC) disease is a multisystem disorder resulting from mutations in the NPC1 gene that encodes a protein involved in intracellular cholesterol trafficking. Significant liver dysfunction is frequently seen in patients with this disease. The current studies used npc1 mutant mice to investigate the association between liver dysfunction and unesterified cholesterol accumulation, a hallmark of NPC disease. Data from 92 npc1−/− mice (age range, 9–56 days) revealed a significant positive correlation between the plasma activities of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) and whole liver cholesterol content. In 56 day old npc1−/− mice that had been fed from 35 days of age a rodent diet or the same diet containing either cholesterol (1.0%, w/w) or ezetimibe (a sterol absorption inhibitor; 0.0125%, w/w), whole liver cholesterol content averaged 33.5 ± 1.1, 87.9 ± 1.7, and 20.8 ± 0.9 mg, respectively. Again, plasma ALT and AST activities were positively correlated with hepatic cholesterol content. In contrast, plasma transaminase levels remained in the normal range in npc1+/+ mice, in which hepatic esterified cholesterol content had been increased by 72-fold by feeding a high-cholesterol, high-fat diet. These studies suggest that the late endosomal/lysosomal content of unesterified cholesterol correlates with cell damage in NPC disease.

Published

2007

9. Cholesterol substrate pools and steroid hormone levels are normal in the face of mutational inactivation of NPC1 protein

Author

Chonglun Xie, James A. Richardson, Stephen D. Turley, and John M. Dietschy

Subjects

adrenal gland, ovary, testis, lipoprotein receptors, corticosterone, testosterone, Biochemistry, QD415-436

Abstract

Mutational inactivation of NPC1 largely blocks the movement of LDL-derived cholesterol from the lysosome to the metabolically active, cytosolic pool of sterol that is the substrate for steroid hormone production. Such a block might, in theory, lead to deficiencies in circulating levels of testosterone, progesterone, and corticosterone. However, there are at least two other sources for cellular cholesterol, de novo synthesis and scavenger receptor class B type I-mediated uptake of HDL cholesteryl ester (CE). In this study, we measured the rates of net cholesterol acquisition by these three pathways in the adrenal, ovary, and testis. In all three organs, the majority (81–98%) of cholesterol acquisition came from the selective uptake of CE from HDL and de novo synthesis. Furthermore, in the npc1−/−mouse, the cytosolic storage pool of CE in a tissue such as the adrenal remained constant (∼25 mg/g). As a result of these alternative pathways, the plasma concentrations of testosterone (3.5 vs. 2.5 ng/ml), progesterone (8.5 vs. 6.7 ng/ml), and corticosterone (391 vs. 134 ng/ml) were either the same or elevated in the npc1−/−mouse, compared with the control animal. Thus, impairment of cholesterol acquisition through the NPC1-dependent, clathrin-coated pit pathway did not limit the availability of cholesterol substrate for steroid hormone synthesis in the steroidogenic cells.

Published

2006

10. Niemann-Pick C1 expression is not regulated by the amount of cholesterol flowing through cells in the mouse

Author

William S. Garver, Chonglun Xie, Joyce J. Repa, Stephen D. Turley, and John M. Dietschy

Subjects

coated-pit pathway, late endosomes/lysosomes, lipoprotein-derived cholesterol, cholesterol synthesis, mouse tissues, Biochemistry, QD415-436

Abstract

The Niemann-Pick C1 (NPC1) protein functions to regulate the transport of cholesterol from late endosomes/lysosomes to other cellular compartments after lipoprotein uptake through the coated-pit pathway. The present study examines the relative expression of NPC1 mRNA and NPC1 protein in different tissues of the mouse in relation to the uptake of total cholesterol carried in chylomicron remnants (CMr-TC), low density lipoproteins (LDL-TC), cholesteryl ester carried in high density lipoproteins (HDL-CE), and cholesterol synthesis. Results from this study demonstrate that the highest relative expression of NPC1 is in the liver, which is also the tissue with the highest uptake of CMr-TC, LDL-TC, HDL-CE, and cholesterol synthesis. However, there was no similar relation in the remaining tissues. To examine the relative expression of NPC1 in relation to the amount of cholesterol that flowed through the coated-pit pathway, mice were fed a diet supplemented with increasing amounts of cholesterol or cholestyramine. The results from this study demonstrated that there was no relation between the relative expression of NPC1 and the amount of cholesterol that flowed through the coated-pit pathway.We conclude that the relative expression of NPC1 is not regulated by the flow of cholesterol through cells in the mouse and is therefore constitutive.

Published

2005

11. Delineation of molecular changes in intrahepatic cholesterol metabolism resulting from diminished cholesterol absorption

Author

Joyce J. Repa, Stephen D. Turley, Gang Quan, and John M. Dietschy

Subjects

cholesterol synthesis, cholesterol excretion, bile acid excretion, enterocyte, hepatocyte, biliary lipid composition, Biochemistry, QD415-436

Abstract

The absorption of cholesterol by the small intestine is a major route for the net entry of cholesterol into the body and can therefore affect the plasma low density lipoprotein-cholesterol (LDL-C) concentration. These studies used ezetimibe, a potent inhibitor of cholesterol absorption, to delineate the biochemical and molecular changes in intrahepatic metabolism and biliary lipid secretion when there is a major reduction in chylomicron cholesterol delivery to the liver. In female LDL receptor (LDLR)-deficient (LDLR−/−) mice fed a basal diet containing ezetimibe (0–10 mg/day/kg body weight), cholesterol absorption was reduced up to 91%, fecal neutral sterol excretion was increased up to 4.7-fold, and plasma total cholesterol concentrations decreased by up to 18%. Blocking cholesterol absorption prevented the accumulation of very low density lipoproteins and LDL in the circulation of LDLR−/− mice fed a lipid-rich diet. In female LDLR+/+ mice fed the lipid-rich diet with ezetimibe, the relative mRNA level for the LDLR in the liver was 2-fold greater than in matching mice given the lipid-rich diet alone.We conclude that in the mouse the reduction in plasma LDL-C levels induced by blocking cholesterol absorption reflects both a diminished rate of LDL-C production and a modest increase in hepatic LDLR expression.

Published

2005

12. Thematic review series: Brain Lipids. Cholesterol metabolism in the central nervous system during early development and in the mature animal

Author

John M. Dietschy and Stephen D. Turley

Subjects

Alzheimer's disease, amyloid precursor protein, oxysterols, dementia, amyloid β peptide, blood-brain barrier, Biochemistry, QD415-436

Abstract

Unesterified cholesterol is an essential structural component of the plasma membrane of every cell. During evolution, this membrane came to play an additional, highly specialized role in the central nervous system (CNS) as the major architectural component of compact myelin. As a consequence, in the human the mean concentration of unesterified cholesterol in the CNS is higher than in any other tissue (∼23 mg/g). Furthermore, even though the CNS accounts for only 2.1% of body weight, it contains 23% of the sterol present in the whole body pool. In all animals, most growth and differentiation of the CNS occurs in the first few weeks or years after birth, and the cholesterol required for this growth apparently comes exclusively from de novo synthesis. Currently, there is no evidence for the net transfer of sterol from the blood into the brain or spinal cord. In adults, the rate of synthesis exceeds the need for new structural sterol, so that net movement of cholesterol out of the CNS must take place. At least two pathways are used for this excretory process, one of which involves the formation of 24(S)-hydroxycholesterol.Whether or not changes in the plasma cholesterol concentration alter sterol metabolism in the CNS or whether such changes affect cognitive function in the brain or the incidence of dementia remain uncertain at this time.

Published

2004

13. Quantitation of two pathways for cholesterol excretion from the brain in normal mice and mice with neurodegeneration

Author

Chonglun Xie, Erik G. Lund, Stephen D. Turley, David W. Russell, and John M. Dietschy

Subjects

Niemann-Pick type C disease, dementia, glial cells, oxysterols, cholesterol 24-hydroxylase, sterol 27-hydroxylase, Biochemistry, QD415-436

Abstract

Although the pool of cholesterol in the adult central nervous system (CNS) is large and of constant size, little is known of the process(es) involved in regulation of sterol turnover in this pool. In 7-week-old mice, net excretion of cholesterol from the brain equaled 1.4 mg/day/kg body weight, and from the whole animal was 179 mg/day/kg. Deletion of cholesterol 24-hydroxylase, an enzyme highly expressed in the CNS, did not alter brain growth or myelination, but reduced sterol excretion from the CNS 64% to 0.5 mg/day/kg. In mice with a mutation in the Niemann-Pick C gene that had ongoing neurodegeneration, sterol excretion from the CNS was increased to 2.3 mg/day/kg. Deletion of cholesterol 24-hydroxylase activity in these animals reduced net excretion only 22% to 1.8 mg/day/kg.Thus, at least two different pathways promote net sterol excretion from the CNS. One uses cholesterol 24-hydroxylase and may reflect sterol turnover in large neurons in the brain. The other probably involves the movement of cholesterol or one of its metabolites across the blood-brain barrier and may more closely mirror sterol turnover in pools such as glial cell membranes and myelin.

Published

2003

14. Inhibition of cholesterol absorption by SCH 58053 in the mouse is not mediated via changes in the expression of mRNA for ABCA1, ABCG5, or ABCG8 in the enterocyte

Author

Joyce J. Repa, John M. Dietschy, and Stephen D. Turley

Subjects

liver, small intestine, bile acid, cholesterol efflux, cholesterol synthesis, fecal neutral sterol, Biochemistry, QD415-436

Abstract

Intestinal cholesterol absorption is a major determinant of plasma low density lipoprotein-cholesterol (LDL33333391) concentrations. Ezetimibe (SCH 58235) and its analogs SCH 48461 and SCH 58053 are novel potent inhibitors of cholesterol absorption whose mechanism of action is unknown. These studies investigated the effect of SCH 58053 on cholesterol metabolism in female 129/Sv mice. In mice fed a low cholesterol rodent diet containing SCH 58053, cholesterol absorption was reduced by 46% and fecal neutral sterol excretion was increased 67%, but biliary lipid composition and bile acid synthesis, pool size, and pool composition were unchanged. When the dietary cholesterol content was increased either 10- or 50-fold, those animals given SCH 58053 manifested lower hepatic and biliary cholesterol concentrations than did their untreated controls. Cholesterol feeding increased the relative mRNA level for adenosine triphosphate-binding cassette transporter A1 (ABCA1), ABC transporter G5 (ABCG5), and ABC transporter G8 (ABCG8) in the jejunum, and of ABCG5 and ABCG8 in the liver, but the magnitude of this increase was generally less if the mice were given SCH 58053.We conclude that the inhibition of cholesterol absorption effected by this new class of agents is not mediated via changes in either the size or composition of the intestinal bile acid pool, or the level of mRNA expression of proteins that facilitate cholesterol efflux from the enterocyte, but rather may involve disruption of the uptake of luminal sterol across the microvillus membrane.

Published

2002

15. Fatty acids differentially regulate hepatic cholesteryl ester formation and incorporation into lipoproteins in the liver of the mouse

Author

Chonglun Xie, Laura A. Woollett, Stephen D. Turley, and John M. Dietschy

Subjects

very low density lipoprotein, low density lipoprotein, low density lipoprotein receptors, acyl-coenzyme A:cholesterol acyltransferase, plasma cholesterol, dietary fatty acids, Biochemistry, QD415-436

Abstract

These experiments tested the hypothesis that fatty acids (FAs) that drive cholesterol esterification also enhance sterol secretion and were undertaken using a mouse model where lipoprotein-cholesterol output by the liver could be assessed in vivo. The turnover of sterol in the animals was kept constant (∼160 mg/d per kg) while the liver was enriched with the single FAs 8:0, 14:0, 18:1, or 18:2. Under these conditions, the steady-state concentration of cholesteryl ester in the liver varied 6-fold, from 1.2 to 7.9 mg/g, and the expansion of this pool was directly related to the specific FA enriching the liver (FA 18:1>18:2>8:0> 14:0). Secretion of lipoprotein-cholesterol varied 5-fold and was a linear function of the concentration of cholesteryl ester in the liver. These studies demonstrate that unsaturated FAs drive the esterification reaction and enhance lipoprotein cholesterol secretion by the liver under conditions where cholesterol balance across this organ is constant.Thus, individual FAs interact with cholesterol to profoundly regulate both the output and uptake of sterol by the liver, and these effects are articulated through the esterification reaction.

Published

2002

16. Alternate pathways of bile acid synthesis in the cholesterol 7α-hydroxylase knockout mouse are not upregulated by either cholesterol or cholestyramine feeding

Author

Margrit Schwarz, David W. Russell, John M. Dietschy, and Stephen D. Turley

Subjects

bile acid pool size, biliary bile acid, biliary cholesterol, cholesterol absorption, cholesterol synthesis, fecal sterol excretion, Biochemistry, QD415-436

Abstract

Bile acids are synthesized via the classic pathway initiated by cholesterol 7α-hydroxylase (CYP7A1), and via alternate pathways, one of which is initiated by sterol 27-hydroxylase (CYP27). These studies used mice lacking cholesterol 7α-hydroxylase (Cyp7a1−/−) to establish whether the loss of the classic pathway affected cholesterol homeostasis differently in males and females, and to determine if the rate of bile acid synthesis via alternate pathways was responsive to changes in the enterohepatic flux of cholesterol and bile acids. In both the Cyp7a1−/− males and females, the basal rate of bile acid synthesis was only half of that in matching Cyp7a1+/+ animals. Although bile acid pool size contracted markedly in all the Cyp7a1−/− mice, the female Cyp7a1−/− mice maintained a larger, more cholic acid-rich pool than their male counterparts. Intestinal cholesterol absorption in the Cyp7a1−/− males fell from 46% to 3%, and in the matching females from 58% to 17%. Bile acid synthesis in Cyp7a1+/+ males and females was increased 2-fold by cholesterol feeding, and 4-fold by cholestyramine treatment, but was not changed in matching Cyp7a1−/− mice by either of these manipulations. In the Cyp7a1−/− mice fed cholesterol, hepatic cholesterol concentrations increased only marginally in the males, but rose almost 3-fold in the females. CYP7A1 activity and mRNA levels were greater in females than in males, and were increased by cholesterol feeding in both sexes. CYP27 activity and mRNA levels did not vary as a function of CYP7A1 genotype, gender, or dietary cholesterol intake. We conclude that in the mouse the rate of bile acid synthesis via alternative pathways is unresponsive to changes in the enterohepatic flux of cholesterol and bile acid, and that factors governing gender-related differences in bile acid synthesis, pool size, and pool composition play an important role in determining the impact of CYP7A1 deficiency on cholesterol homeostasis in this species.—Schwarz, M., D. W. Russell, J. M. Dietschy, and S. D. Turley. Alternate pathways of bile acid synthesis in the cholesterol 7α-hydroxylase knockout mouse are not upregulated by either cholesterol or cholestyramine feeding. J. Lipid Res. 2001. 42: 1594–1603.

Published

2001

17. Centripetal cholesterol flow from the extrahepatic organs through the liver is normal in mice with mutated Niemann-Pick type C protein (NPC1)

Author

Chonglun Xie, Stephen D. Turley, and John M. Dietschy

Subjects

Niemann-Pick type C disease, scavenger receptor BI, low density lipoprotein receptor, coated pit, lysosome, high density lipoprotein, Biochemistry, QD415-436

Abstract

Niemann-Pick type C (NPC) protein functions to move unesterified cholesterol from the lysosomal compartment to other intracellular sites for further metabolism and/or excretion. This cholesterol is brought into the cell through the coated-pit pathway and accumulates in the lysosomes when NPC protein is mutated. The present study quantitated the alternative uptake process that brings cholesterol into the cell through the scavenger receptor, class B, type I (SR-BI) pathway in animals with this mutation. In homozygous NPC mice, the tissues of the extrahepatic compartment accumulated an excess of 14 mg of cholesterol each day per kg body weight, and synthesis increased by a similar amount (to 111 mg/day per kg) to compensate for this functional loss of sterol through lysosomal sequestration. An amount of cholesterol (108 mg/day per kg) nearly equal to that synthesized in the extrahepatic compartment was carried through the circulation by high density lipoprotein (HDL) and taken up by the liver. The rate of hepatic cholesterol excretion from the NPC mice as fecal acidic (65 mg/day per kg) and neutral (85 mg/day per kg) sterols was elevated 61% above control values and was accounted for by the total amount of cholesterol brought to the liver in HDL and synthesized in the hepatocytes. These studies demonstrated that while cholesterol entering tissues of the NPC animals through the coated-pit pathway became sequestered in the lysosomal compartment and was metabolically inactive, cholesterol that was newly synthesized or that entered cells through the SR-BI pathway was metabolized and excreted normally. —Xie, C., S. D. Turley, and J. M. Dietschy. Centripetal cholesterol flow from the extrahepatic organs through the liver is normal in mice with mutated Niemann-Pick type C protein (NPC1). J. Lipid Res. 2000. 41: 1278–1289.

Published

2000

18. Centripetal cholesterol flux to the liver is dictated by events in the peripheral organs and not by the plasma high density lipoprotein or apolipoprotein A-I concentration

Author

Christopher D. Jolley, Laura A. Woollett, Stephen D. Turley, and John M. Dietschy

Subjects

low density lipoprotein, liver, atherosclerosis, caveolae, Golgi, endoplasmic reticulum, Biochemistry, QD415-436

Abstract

The major net flux of cholesterol in the intact animal or human is from the peripheral organs to the liver. This flux is made up of cholesterol that is either synthesized in these peripheral tissues or taken up as lipoprotein cholesterol. This study investigates whether it is the concentration of apolipoprotein (apo) A-I or high density lipoprotein in the plasma that determines the magnitude of this flux or, alternatively, whether events within the peripheral cells themselves regulate this important process. In mice that lack apoA-I and have very low concentrations of circulating high density lipoprotein, it was found that there was no accumulation of cholesterol in any peripheral organ so that the mean sterol concentration in these tissues was the same (2208 ± 29 mg/kg body weight) as in control mice (2176 ± 50 mg/kg). Furthermore, by measuring the rates of net cholesterol acquisition in the peripheral organs from de novo synthesis and uptake of low density lipoprotein, it was demonstrated that the magnitude of centripetal sterol movement from the peripheral organs to the liver was virtually identical in control animals (78 ± 5 mg/day per kg) and in those lacking apoA-I (72 ± 4 mg/day per kg). These studies indicate that the magnitude of net sterol flux through the body is not related to the concentration of high density lipoprotein or apolipoprotein A-I in the plasma, but is probably determined by intracellular processes in the peripheral organs that dictate the rate of movement of cholesterol from the endoplasmic reticulum to the plasma membrane. —Jolley, C. D., L. A. Woollett, S. D. Turley, and J. M. Dietschy. Centripetal cholesterol flux to the liver is dictated by events in the peripheral organs and not by the plasma high density lipoprotein or apolipoprotein A-I concentration. J. Lipid. Res. 1998. 39: 2143–2149.

Published

1998

19. Marked reduction in bile acid synthesis in cholesterol 7α-hydroxylase-deficient mice does not lead to diminished tissue cholesterol turnover or to hypercholesterolemia

Author

Margrit Schwarz, David W. Russell, John M. Dietschy, and Stephen D. Turley

Subjects

cholesterol 7α-hydroxylase, cholesterol absorption, cholesterol synthesis, bile acid pool size, liver, small intestine, Biochemistry, QD415-436

Abstract

These studies used mice that were deficient in cholesterol 7α-hydroxylase to determine the effects of reduced bile acid synthesis on cholesterol homeostasis. In mice lacking this enzyme, bile acid synthesis was reduced from 8.3 to 3.4 μmol/day per 100 g body weight, the intestinal bile acid pool was decreased from 62.5 to 13.2 μmol/100 g bw, and the proportion of hyodeoxycholate, relative to cholate, in this pool was significantly increased. Associated with these changes, intestinal cholesterol absorption decreased from 37% to

Published

1998

20. Identification of a metabolic difference accounting for the hyper- and hyporesponder phenotypes of cynomolgus monkey

Author

S D Turley, D K Spady, and J M Dietschy

Subjects

Biochemistry, QD415-436

Abstract

These studies were done to determine whether an underlying metabolic difference could account for the higher concentration of cholesterol carried in low density lipoproteins (LDL-C) in male hyperresponder (HR) cynomolgus monkeys than in their hyporesponder (HO) counterparts during dietary cholesterol challenge. All animals were fed to steady state at 5 months a diet that had a constant concentration of cholesterol (0.19 mg/g), triacylglycerol (175 mg/g), and soluble fiber. There were no differences in these two phenotypes with respect to the profile of fatty acids in the liver and bile acids in the gallbladder, or in the relationship of cholesterol synthesis to cholesteryl ester formation in the liver. The rate of cholesterol synthesis in all extrahepatic tissues was also the same in the HO and HR animals but was 2.1 mg/day per kg body weight less in the liver of the HR monkeys. When challenged with a greater dietary cholesterol load, therefore, the HR animal could not readily further down-regulate synthesis and so shifted more cholesterol into the ester pool (9.4 mg/g) than did the HO animal (3.9 mg/g). Also the LDL-C concentration was more markedly elevated (412 mg/dl) compared to the hyporesponder monkey (188 mg/dl). Thus, this single metabolic alteration apparently accounted for the HO and HR phenotypes. As this difference was not due to variation in the delivery of sterol from the extrahepatic organs to the liver, it must reflect a difference in either net intestinal sterol absorption or net hepatic sterol excretion in the two phenotypes.

Published

1997

21. Brain does not utilize low density lipoprotein-cholesterol during fetal and neonatal development in the sheep

Author

S D Turley, D K Burns, C R Rosenfeld, and J M Dietschy

Subjects

Biochemistry, QD415-436

Abstract

Several lines of evidence have suggested that central nervous system development and function depend upon a supply of cholesterol that comes from low density lipoproteins (LDL-C). These studies test this hypothesis directly by measuring in vivo the uptake of LDL-C in nine regions of the central nervous system at five different stages of development in the fetal and neonatal sheep. The concentration of LDL-C in the plasma decreased from 49 mg/dl in the fetus 90 days before birth (-90 days) to only 10 mg/dl at -13 days. By 17 days postnatal this value increased to nearly 60 mg/dl. Throughout the period of development between -90 days (very early fetus) and 17 days (late neonatal animal) the weight of the brain increased 32-fold (from 2.3 to 73.6 g) and the content of cholesterol rose 100-fold (from 8.6 to 876 mg), yet there was no detectable LDL-C uptake in any of nine areas of the central nervous system at any stage of development (clearances of < 2 microliters/h per g). This was true even in the -90 day fetus prior to closure of the blood brain barrier. In contrast, LDL-C clearance by the adrenal gland increased dramatically (from 91 to 348 microliters/h per g) as it also did in the liver (from 36 to 85 microliters/h per g) during fetal development. These studies strongly suggest, therefore, that cholesterol carried in LDL plays little or no role in the process of sterol acquisition during brain development or in cholesterol turnover in the mature central nervous system. Changes in circulating LDL-C concentration, therefore, should have no effect on brain function.

Published

1996

22. Role of liver in the synthesis of cholesterol and the clearance of low density lipoproteins in the cynomolgus monkey

Author

S D Turley, D K Spady, and J M Dietschy

Subjects

Biochemistry, QD415-436

Abstract

The suitability of the adult male cynomolgus monkey as a model for investigating genetic mechanisms that regulate dietary cholesterolemic response was evaluated by carrying out a systematic characterization of the major aspects of cholesterol metabolism in this species. In monkeys maintained on a diet enriched with saturated fat but low in cholesterol (0.019%, wt/wt), plasma total and low density lipoprotein cholesterol (LDL-C) concentrations were 118 +/- 6 and 45.3 +/- 3.4 mg/dl, respectively. Intestinal cholesterol absorption averaged 54.0 +/- 2.5%, and the rate of whole body sterol synthesis was 10.8 +/- 0.6 mg/day per kg body weight. Only 11.2 +/- 2.6% of this synthesis occurred in the liver. In contrast, the liver was the major site for low density lipoprotein clearance accounting for almost 80% of LDL-C degradation in these animals. The liver, which represented 1.5% of whole body mass, had a total and esterified cholesterol concentration of 4.95 +/- 0.29 and 2.05 +/- 0.30 mg/g, respectively. When challenged with a matching high cholesterol diet (0.19%, wt/wt), the monkeys developed marked hypercholesterolemia that was accounted for mainly by a 7-fold increase in the LDL-C levels. There was, however, wide individual variation among the monkeys in the magnitude of their cholesterolemic response. Hepatic total and esterified cholesterol levels increased 2.5- and 4.6-fold, respectively. Comparative experiments showed that while several of the metabolic characteristics of this species of monkey were similar to those found in the hamster, they were generally very different from those seen in the rat. Thus, the male cynomolgus monkey has many characteristics in common with humans and represents an attractive model for further delineating the genetic mechanisms that dictate variable responsiveness to dietary cholesterol and triacylglycerol.

Published

1995

23. Reevaluation and application of the dual-isotope plasma ratio method for the measurement of intestinal cholesterol absorption in the hamster.

Author

S D Turley, M W Herndon, and J M Dietschy

Subjects

Biochemistry, QD415-436

Abstract

These experiments systematically evaluated the dual-isotope plasma ratio method for measuring intestinal cholesterol absorption in the hamster. It was found that while the ratio of the 3H- and 14C-labeled cholesterol in the plasma, relative to the respective dose of each that was given, became constant by 72 h after their administration, the percent cholesterol absorption was lower in animals that were fasted before dosing (35.7 +/- 5.5%) than in their fed controls (47.5 +/- 3.7%). Furthermore, the percent absorption found 72 h after dosing varied greatly, depending on whether the intragastric dose of labeled cholesterol was administered in medium chain triglyceride (MCT) oil (46.2 +/- 2.3%), olive oil (63.9 +/- 11.2%), or safflower oil (74.6 +/- 4.5%). The level of absorption was not different between hamsters that had unrestricted (46.3 +/- 1.6%) and restricted (43.8 +/- 2.2%) access to their stools during the 72 h after dosing. Other experiments, using only hamsters in the fed state and MCT oil as the intragastric dosing medium, showed that the percent cholesterol absorption could be made to vary over a wide range using treatments known to produce such effects in humans. Thus, feeding either surfomer, cholestyramine, ursodeoxycholic acid, or CI-976, a new inhibitor of acyl-CoA:cholesterol acyltransferase, significantly blocked cholesterol absorption, whereas the addition of either cholic acid or increasing amounts of oil to the diet had the opposite effect. The modified dual-isotope plasma ratio method described here provides a simpler and more physiologic approach to the routine measurement of cholesterol absorption in the hamster and similar small animal models.

Published

1994

24. Role of liver in the maintenance of cholesterol and low density lipoprotein homeostasis in different animal species, including humans

Author

JM Dietschy, SD Turley, and DK Spady

Subjects

Biochemistry, QD415-436

Published

1993

25. Rates of sterol synthesis and uptake in the major organs of the rat in vivo.

Author

S D Turley, J M Andersen, and J M Dietschy

Subjects

Biochemistry, QD415-436

Abstract

This study was undertaken to determine the rates of sterol synthesis and uptake in the major organs of the female rat in vivo. At the mid-dark phase of the light cycle, control animals, animals in which hepatic sterol synthesis had been selectively inhibited by chylomicron infusion and animals in which the small intestine and liver had been surgically removed, were administered [(3)H]water, and the content of (3)H-labeled digitonin-precipitable sterols ([(3)H]-DPS) in different organs was measured 1 hr later. In control animals, the highest content of [(3)H]DPS was found in the liver (2279 nmol/hr per g), adrenal gland (1222), ovary (791), and small bowel (529): the content of newly synthesized sterols was much lower in 13 other tissues. By selectively inhibiting sterol synthesis in the liver or by surgically removing the small intestine and liver, it was determined that of the total amount of [(3)H]DPS synthesized in the whole animal about 50% had occurred in the liver, 24% in the small bowel, 8% in the skin, and 18% in the remaining tissues of the carcass combined. By analyzing the relationship between the content of [(3)H]DPS in blood and in each organ, it was further possible to determine how much [(3)H]DPS was synthesized and how much was taken up from the blood in each tissue. The highest rate of uptake was found in the adrenal gland where only 4% of the tissue content of [(3)H]DPS came from local synthesis. Low rates of synthesis relative to the rates of uptake, were also found in the spleen (6%), lung (17%), and kidney (26%). In contrast, in other organs there was little uptake of [(3)H]DPS from blood so that >75% of the [(3)H]DPS present in brain and muscle, for example, was due to local synthesis. Lowering the circulating levels of plasma cholesterol markedly increased the synthesis of [(3)H]DPS in tissues like adrenal gland, spleen, and kidney that were dependent upon plasma cholesterol as the major source of tissue sterols, but not in tissues such as muscle and brain. These studies have quantitated the importance of each major organ to total body synthesis and have delineated the rates of movement of [(3)H]DPS between major tissue compartments of the rat.-Turley, S. D., J. M. Andersen, and J. M. Dietschy. Rates of sterol synthesis and uptake in the major organs of the rat in vivo.

Published

1981

26. Regulation of biliary cholesterol output in the rat: dissociation from the rate of hepatic cholesterol synthesis, the size of the hepatic cholesteryl ester pool, and the hepatic uptake of chylomicron cholesterol.

Author

S D Turley and J M Dietschy

Subjects

Biochemistry, QD415-436

Abstract

These studies were designed to determine the importance of the rate of hepatic cholesterol synthesis, the size of the hepatic cholesteryl ester pool, the amount of chylomicron cholesterol reaching the liver, and the rate of bile acid transport into bile as determinants of the rate of biliary cholesterol output. Female rats that had been subjected to diurnal light cycling, fasting for 48 hr, intravenous administration of chylomicrons, and diets containing either cholestyramine, cholesterol, or bile acid underwent total biliary diversion for 2 hr. The animals were then killed and the rates of hepatic cholesterol synthesis and levels of hepatic esterified cholesterol were measured along with biliary lipid concentrations. Despite a 1000-fold variation in the rate of hepatic cholesterogenesis and a 100-fold variation in the levels of cholesteryl esters, the output and molar percentage of cholesterol in bile remained essentially constant with the exception of an approximate doubling in the output of cholesterol, as well as of bile acid and phospholipid in those animals fed bile acid. However, in this latter group the molar percentage of each component was unchanged. The administration of a bolus of chylomicrons did not alter output or molar percentage of cholesterol. Total biliary diversion for 36 hr and bile acid infusion were used to markedly vary the rate of biliary bile acid output. Cholesterol and phospholipid output remained tightly coupled to bile acid output over almost a 40-fold range. In other experiments it was shown that biliary cholesterol output could be driven by bile acid infusion to a similar extent in rats in which the rate of hepatic cholesterogenesis had been varied over a 26-fold range. It was concluded that the rate of hepatic cholesterol synthesis, the level of hepatic cholesteryl esters, and the amount of cholesterol absorbed from the diet play no role in determining the rate of biliary cholesterol secretion, at least in this species.-Turley, S. D., and J. M. Dietschy. Regulation of biliary cholesterol output in the rat: dissociation from the rate of hepatic cholesterol synthesis, the size of the hepatic cholesteryl ester pool, and the hepatic uptake of chylomicron cholesterol.

Published

1979

27. Re-evaluation of the 3 alpha-hydroxysteroid dehydrogenase assay for total bile acids in bile.

Author

S D Turley and J M Dietschy

Subjects

Biochemistry, QD415-436

Abstract

A review of the 3 alpha-hydroxysteroid dehydrogenase method for determining the concentration of total bile acids in bile is described. The optimum conditions for the assay were established with respect to pH, temperature, incubation time, amount of NAD+, and units of enzyme activity required to obtain complete oxidation of the substrate under fixed conditions. Furthermore, the effect of hydrazine hydrate, methanol, and bile volume on the reaction was examined. It was also established that the bile acid concentration in bile samples with a high molar percentage of cholesterol would be overestimated if 3 beta-hydroxysteroid dehydrogenase were present with the 3 alpha-enzyme.

Published

1978

28. Rates of low density lipoprotein uptake and cholesterol synthesis are regulated independently in the liver.

Author

D K Spady, S D Turley, and J M Dietschy

Subjects

Biochemistry, QD415-436

Abstract

The relationship between rates of hepatic sterol synthesis and rates of hepatic low density lipoprotein (LDL) uptake (clearance) was studied in animals with high (rats), low (female hamsters), and very low (male hamsters) basal rates of hepatic sterol synthesis. In rats and female hamsters, rates of hepatic sterol synthesis were varied over a 110-fold range by feeding cholesterol or cholestyramine; nevertheless, rates of hepatic LDL clearance remained essentially unchanged as did plasma LDL-cholesterol concentrations. In contrast, in male hamsters, which have a very limited capacity to synthesize cholesterol in the liver, cholestyramine feeding increased rates of hepatic LDL uptake by 2.5-fold and this was associated with a 50% reduction in plasma LDL-cholesterol concentrations. The observed increase in LDL uptake was due to an increase in receptor-dependent LDL transport while receptor-independent lipoprotein uptake remained constant. These studies suggest that rates of hepatic cholesterol synthesis and receptor-dependent LDL uptake are regulated independently. Furthermore, the primary response of the liver to changes in cholesterol availability is regulation of sterol synthesis and only when the capacity of this compensatory mechanism is exceeded is the rate of LDL transport altered.

Published

1985

29. Rates of sterol synthesis in the liver and extrahepatic tissues of the SHR/N-corpulent rat, an animal with hyperlipidemia and insulin-independent diabetes.

Author

S D Turley and C T Hansen

Subjects

Biochemistry, QD415-436

Abstract

The SHR/N-corpulent rat is a new genetically obese strain that exhibits both insulin-independent diabetes and hyperlipidemia. The present studies were undertaken to characterize various parameters of cholesterol metabolism in this model. At 11 weeks of age, the obese animals had markedly elevated plasma cholesterol, triglyceride, glucose, and insulin concentrations and elevated hepatic triglyceride concentrations compared to their lean littermates. The additional cholesterol in plasma was carried in the fractions of density less than 1.006, 1.020-1.055, 1.055-1.095, and 1.095-1.21 g/ml. In the obese rats the level of free cholesterol in the liver was decreased significantly while that of cholesteryl ester showed little change. Hepatic sterol synthesis was markedly suppressed in the obese animals. However, the rate of sterol synthesis in the small intestine and other extrahepatic tissues generally remained unchanged. Although hepatic synthesis was suppressed, whole animal sterol synthesis in the obese rats was similar to that in the lean controls. This resulted because, in the obese animals, not only was the reduced rate of hepatic synthesis partly balanced by a greater than 70% increase in liver mass, but the mass of the small intestine and adipose tissue was also increased more than 30% and 4-fold, respectively, thereby making these tissues quantitatively more important sites of sterol synthesis. When obese rats were pair-fed to the intake of their lean littermates for 10 weeks, there was only a modest reduction in body weight and plasma cholesterol concentration, and the rate of hepatic sterol synthesis remained very low. The suppression of synthesis in the liver also persisted when the obese rats were fed surfomer, a drug that specifically blocks cholesterol absorption. In contrast, feeding cholestyramine restored the rate of hepatic sterol synthesis to that found in lean animals. Bile acid pool size in the obese males and females was 2.5-fold greater than in their lean controls. The suppression of hepatic sterol synthesis in this model may be due to a change in the entero-hepatic circulation of bile acids arising from an expanded pool or, alternatively, it may represent a compensatory response to overproduction of sterol and its precursors in the intestinal and adipose compartments.

Published

1988