Your search keyword '"J.-P. Glatz"' showing total 3 results

1. Uptake and metabolism of palmitate by isolated cardiac myocytes from adult rats: involvement of sarcolemmal proteins

Author

J J Luiken, F A van Nieuwenhoven, G America, G J van der Vusse, and J F Glatz

Subjects

Biochemistry, QD415-436

Abstract

The precise mechanism of uptake of long-chain fatty acids (FA) by cardiac myocytes is incompletely understood. We examined the involvement of sarcolemmal proteins in the initial uptake of FA by isolated rat cardiac myocytes, and the relation between initial uptake and metabolism. Cardiac myocytes were incubated in the presence of 90 microns [1-14C]palmitate complexed to 300 microns bovine serum albumin (BSA), presenting a physiologically relevant condition. During initial palmitate uptake (3 min), 56% of the intracellularly sequestered palmitate was esterified, and an additional 21% converted into oxidation intermediates. Varying the palmitate/BSA molar ratio revealed saturation kinetics with the apparent Km for cellular palmitate uptake (435 micro M) to be comparable to those for esterification (465 micro M) and oxidation (222 micro M). Varying the BSA concentration at a fixed palmitate/BSA molar ratio also showed saturation of uptake at increasing concentrations, with an apparent Km for BSA of 23 micro M. Changes in palmitate metabolism induced by changes in glucose utilization were accompanied by identical effects on palmitate uptake. Addition of lactate also inhibited both oxidation and uptake of palmitate, but had no effect on esterification. Virtually complete inhibition of palmitate oxidation by etomoxir inhibited palmitate uptake for 50%, while decreasing esterification by 33%. In the presence of phloretin and trypsin, palmitate uptake and metabolism were inhibited 76-88%, and in the presence of sulfo-N-succinimidyloleate by 53%. It is concluded that a) the bulk of sarcolemmal palmitate translocation occurs by membrane-associated FA-binding proteins, most likely assisted by albumin binding proteins without regulatory function, and b) palmitate uptake is most likely driven by its rapid intracellular metabolic conversion.

Published

1997

2. Serum lathosterol concentration is an indicator of whole-body cholesterol synthesis in humans.

Author

H J Kempen, J F Glatz, J A Gevers Leuven, H A van der Voort, and M B Katan

Subjects

Biochemistry, QD415-436

Abstract

The power of serum lathosterol concentration as an indicator of whole-body cholesterol synthesis was investigated in 47 human volunteers consuming two diets differing in fatty acid composition. The cholesterol balance (fecal excretion of neutral and acid steroids minus cholesterol intake) was strongly correlated with the serum level of total (free plus esterified) lathosterol and also with the ratio of serum lathosterol over serum cholesterol, both on a diet rich in polyunsaturated fatty acids (r = 0.74 for the ratio) and one containing mainly saturated fatty acids (r = 0.70 for the ratio). In a subgroup for which the serum levels of free lanosterol and other free methylsterols were also quantitated, the correlations of these levels (expressed relative to serum free cholesterol) with the cholesterol balance were lower than that found for total lathosterol (expressed relative to serum total cholesterol). A further corroboration was obtained by measuring the lathosterol/cholesterol ratio in 20 patients with familial hypercholesterolemia before and during treatment with the hydroxymethylglutaryl coenzyme A reductase inhibitor Mk-733. The ratio was lowered by 47% during drug treatment, suggesting a significant decrease of the cholesterol balance in these patients. We conclude, from the various indicators proposed to monitor whole-body cholesterol synthesis, that the lathosterol/cholesterol ratio in serum appears preferable with respect to indicative power and ease of quantitation.

Published

1988

3. Congruence of individual responsiveness to dietary cholesterol and to saturated fat in humans

Author

M B Katan, M A Berns, J F Glatz, J T Knuiman, A Nobels, and J H de Vries

Subjects

Biochemistry, QD415-436

Abstract

Previous experiments have shown that differences between humans in the response of serum cholesterol to dietary cholesterol are at least partly reproducible and stable over a prolonged period. In this study it was investigated whether enhanced sensitivity to dietary cholesterol and saturated fat go together. The subjects had also participated in three or four experiments dealing with the reproducibility of the effect on blood cholesterol of either adding cholesterol to the diet in normal subjects (NORM-EGG group; n = 23) or of cessation of egg consumption in subjects with a high habitual egg intake (HAB-EGG group; n = 24). In the present experiment the NORM-EGG subjects were fed a mixed natural diet providing 21% of energy as polyunsaturated and 11% as saturated fat (P/S2 ratio, 1.9) for 3 weeks, and one providing 5% of energy as polyunsaturated fat and 23% as saturated fat (P/S ratio, 0.2) for the next 3 weeks. The HAB-EGG group was fed the same diets in reverse order. The serum cholesterol concentrations were higher on the low P/S diet than on the high P/S diet (on average 23% in normal subjects and 16% in habitual egg eaters). The correlation coefficient between each subject's serum cholesterol response to fatty acids and his or her average response to dietary cholesterol in the dietary cholesterol experiments was 0.62 for the normal subjects (P less than 0.01) and 0.15 for the HAB-EGG group. We conclude that modest differences in responsiveness of serum cholesterol to dietary saturated fat do exist in humans, and that, in people of normal cholesterol intake, responsiveness to dietary cholesterol and to saturated fat tend to go together.

Published

1988