A. Nicoll scite author profile

Autologous 131I-labelled very low density lipoprotein (VLDL) and 125I-labelled low density lipoprotein (LDL) were injected into seven normal subjects and into forty-three hyperlipidaemic patients, classified into groups on the basis of family studies and clinical findings, to quantitate VLDL and LDL apolipoprotein B kinetics. In normal subjects, mean VLDL-B peptide synthetic rate was 15 . 1 mg kg-1 day-1, mean LDL-B peptide synthetic rate 7 . 7 mg kg-1 day-1 and mean LDL-B fractional catabolic rate (FCR) 0 . 31 day-1. In heterozygous familial hypercholesterolaemia (n = 14) VLDL-B peptide production was normal in patients with normal triglyceride levels; in those with high triglyceride levels there was either VLDL overproduction or a catabolic defect. LDL-B peptide synthetic rates ranged from high normal to increased (8 . 5--18 . 0 mg kg-1 day-1) and LDL-B peptide FCR values were markedly reduced (0 . 14--0 . 28 day-1) confirming the presence of a defect in LDL catabolism but indicating over-production as well. In familial combined hyperlipidaemia (n = 11) VLDL-B peptide production ranged from normal to elevated (13 . 9--44 . 4 mg kg-1 day-1, mean 23 . 8 mg kg-1 day-1) correlating with the VLDl triglyceride level (i.e. with the phenotypic expression of the disorder). LDL-B peptide production ranged from high normal to markedly increased (8 . 9--19 . 5 mg kg-1 day-1, mean 12 . 2 mg kg-1 day-1) and correlated with LDL cholesterol levels (i.e. the phenotype), (r = +0 . 66, P < 0 . 05). Three patients with unclassified hypercholesterolaemia had increased LDL-B peptide synthetic rates. One patient with remnant hyperlipoproteinaemia (type III) had a high normal VLDL-B peptide synthetic rate, 17 . 3 mg kg-1 day-1, and a strikingly low FCR of VLDL-B. In familial hypertriglyceridaemia (three patients) there was a low VLDL-B peptide FCR. In unclassified hypertriglyceridaemia VLDL over-production was the finding in seven patients but four patients appeared to have catabolic defects only. Overall there were significant hyperbolic relationships between VLCL-B peptide FCR and VLDL-B peptide concentration (r = -0 . 78, P < 0 . 001, for the log/log relationship) and between LDL-B peptide FCR and LDL cholesterol (r = -0 . 88, P < 0 . 001 for the log/log relationship.)

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Conversion of very low density lipoprotein to low density lipoprotein. A metabolic study of apolipoprotein B kinetics in human subjects.

Sigurðsson¹,

Nicoll²,

Lewis³

1975

J. Clin. Invest.

294

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A B S T R A C T The interrelationship between apolipoprotein B in very low density lipoprotein (VLDL-B) and in low density lipoprotein (LDL-B) was studied in seven normal and hyperlipidemic men and women, with purified radioiodinated VLDL. The time-course of the appearance of radioactivity in LDL was followed. As the specific activity curves intersected at the maximal height of the LDL-B curve, it was inferred that all or most LDL-B peptide is derived from VLDL-B peptide.This transfer was further quantitated in seven normotriglyceridemic subjects by simultaneous i.v. injection of purified 'I-VLDL and "I-LDL. By a deconvolution method, a quantitative description of the rate of entry of '"I-VLDL-B into 'l'I-LDL-B was derived by analysis of 'I-LDL-B and "'I-LDL-B radioactivity in plasma. The results indicate that approximately 90% of VLDL-B mass is converted into LDL-B in subjects with normal serum triglyceride concentrations.The synthetic rates of VLDL-B and LDL-B peptide were simultaneously measured in six normal subjects, and two patients with heterozygous familial hypercholesterolemia (type IHa). The turnover rates for VLDL-B and LDL-B peptide were similar in these subjects. The findings in the three parts of this study were consistent with the view that most if not all VLDL-B is converted into LDL-B peptide, and most if not all LDL-B is derived from VLDL-B peptide in normotriglyceridemic subjects.

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Quantitative studies of ver low densit lipoprotein: conversion to low densit lipoprotein in normal controls and primar hperlipidaemic states and the role of direct secretion of low densit lipoprotein in heterozgous familial hpercholesterolaemia

Janus

Nicoll

Wootton

et al. 1980

Eur J Clin Investigation

145

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Autologous 131I-labelled very low density lipoprotein (VLDL) and 125I-labelled low density lipoprotein (LDL) were injected into seven normal subjects and twenty-eight genetically classified hyperlipidaemic patients to quantitate lipoprotein interconversion. The apoprotein B specific activity--time curves for VLDl and intermediate density lipoprotein (IDL, density = 1 . 006--1 . 019 g/ml) intersected at or before the IDL-B maximum in thirty-one studies (five normal controls and twenty-six hyperlipidaemic subjects) implying that all IDL-B may be derived from VLDL-B. The fractional conversion of VLDL-B to LDL-B (density 1 . 019--1 . 063 g/ml) following a simultaneous spike injection of 131I-VLDL and 125-LDL was obtained by deconvolution of the 125I and 131I-LDL-B activity curves. 21--65% (mean = 44%) of VLDL-B was converted to LDL-B in twenty-three subjects studied. The mean conversion time ranged from 10 to 24 h in ten normotriglyceridaemic subjects and from 19 to 42 h (mean = 33 h) in twelve hypertriglyceridaemic subjects. In one patient with broad-beta disease the mean conversion time was 55 h. LDL-B production from VLDL-B and total LDL-B synthetic rate were essentially equal in normal controls and normocholesterolaemic subjects and in the patient with broad-beta disease. But in all six patients with familial hypercholesterolaemia LDL-B synthetic rate significantly exceeded LDL-B production from VLDL-B, indicating direct secretion of 20--72% of LDL-B at a rate which correlates positively with plasma LDL concentration. Three of five patients with familial combined hyperlipidaemia showed a lesser but nevertheless significant direct secretion of LDL-B.

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Relationships between the metabolism of high‐density and very‐low‐density lipoproteins in man: studies of apolipoprotein kinetics and adipose tissue lipoprotein lipase activity

Magill

et al. 1982

Eur J Clin Investigation

119

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In order to gain further insight into the relationship between high-density lipoprotein (HDL) metabolism and plasma triglyceride transport, measurements were made of HDL cholesterol concentration, apoprotein (apo) AI and AII metabolism, very-low-density-lipoprotein (VLDL) apo B metabolism, and heparin-elutable adipose tissue lipoprotein lipase (LPL) activity in seventeen subjects with a wide range of plasma triglyceride concentrations (0.8-25 mmol/l). The fractional catabolic rate (FCR) of VLDL apo B was directly related to LPL activity (r = +0.80), providing evidence that the activity of the enzyme in adipose tissue is a determinant of the rate of lipolysis of VLDL in man. HDL cholesterol concentration was a positive function of both VLDL apo B FCR (r = +0.74) and LPL activity, a finding consistent with previous evidence for the origin of a proportion of HDL cholesterol from 'surface remnants' liberated during VLDL catabolism. THe FCRs of both apo AI and apo AII were inversely related to VLDL apo B FCR (AI, r = -0.52; AII, r = -0.69) and to LPL activity. The synthetic rate of ap AII, but not that of apo AI, was positively correlated with VLDL apo B synthesis (r = +0.7 1). Thus, the metabolism of the major proteins of HDl in man appears to be closely associated with VLDL metabolism.

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Evaluation of the roles of lipoprotein lipase and hepatic lipase in lipoprotein metabolism: in vivo and in vitro studies in man

Nicoll

Lewis

1980

Eur J Clin Investigation

108

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The roles of lipoprotein lipase (LPL) and hepatic lipase in very low density lipoprotein (VLDL) and VLDL remnant metabolism were investigated by (1) in vivo studies where the kinetics of VLDL-apo B removal were measured in patients with non-functioning lipoprotein lipase systems, and (2) in vitro studies where the relative capacities of hepatic lipase and LPL to hydrolyse the triglyceride (TG) of different lipoprotein substrates was measured. The results indicated that VLDL-apo B removal was not impaired in patients with non-functional LPL, nor ws there any apparent abnormality in the conversion of VLDL-apo B to intermediate- (IDL) and low (LDL) density lipoprotein-apo B. Post-heparin plasma hepatic lipase activity against VLDL was normal in these subjects. Purified normal hepatic lipase had a similar Km for VLDL-TG hydrolysis (1.57 mmol/l) to that of LPL (1.49 mmol/l). However, at equal lipoprotein TG concentration, hepatic lipase had increasing activity with lipoproteins of decreasing particle size, in the order chylomicrons much less than VLDL of Sf 100-400 less than VLDL of Sf 60-100 less than VLDL of Sf 20-60 less than IDL. The mean contribution of hepatic lipase to VLDL-TG hydrolysis by post-heparin plasma was 35% in normal controls, but the contribution to IDL-TG hydrolysis was significantly higher (mean - 58%). It is concluded that hepatic lipase plays a significant role in VLDL and, especially, IDL metabolism, at least in patients with non-functioning lipoprotein lipase.

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A. Nicoll

Kinetic bases of the primar hperlipidaemias: studies of apolipoprotein B turnover in geneticall defined subjects

Conversion of very low density lipoprotein to low density lipoprotein. A metabolic study of apolipoprotein B kinetics in human subjects.

Quantitative studies of ver low densit lipoprotein: conversion to low densit lipoprotein in normal controls and primar hperlipidaemic states and the role of direct secretion of low densit lipoprotein in heterozgous familial hpercholesterolaemia

Relationships between the metabolism of high‐density and very‐low‐density lipoproteins in man: studies of apolipoprotein kinetics and adipose tissue lipoprotein lipase activity

Evaluation of the roles of lipoprotein lipase and hepatic lipase in lipoprotein metabolism: in vivo and in vitro studies in man

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