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Metabolism of apolipoproteins A-I and A-II in human high-density lipoprotein: a mathematical approach for analysis of their specific activity decay curves

Journal Article · · Biochem. Med. Metab. Biol.; (United States)
The differential rate equations describing the compartmental model of human high-density lipoprotein (HDL) were integrated by means of Laplace transforms and an exponential equation was obtained for each of the three compartments. These equations were used to fit the observed plasma decay data and give estimates for the rate constants of the system by means of a written computer program. Furthermore, these estimates were used to calculate the exponential constants of the integrated equations. Consequently, the amount of label in any of the intravascular, extravascular, and urine compartments can be calculated as a fraction of the original dose of label at any time point. This method was tested using data for the (AI)HDL subclass because it contains only apolipoprotein A-I as the major apolipoprotein and does not contain apolipoprotein A-II. The calculated plasma and urine radioactivity data were compared with the experimentally obtained data from two normolipoproteinemic subjects and found to be in good agreement. The significance of this method is its application to the analysis of the decay data of the individual apolipoproteins of (AI + AII) HDL subclass where the urinary radioactivity data resulting from the individual apolipoprotein breakdown on the native particle cannot be measured experimentally at present. Such data are essential for the detailed calculation of the kinetic parameters of these apolipoproteins.
Research Organization:
Jordan Univ. of Science and Technology, Irbid
OSTI ID:
5207983
Journal Information:
Biochem. Med. Metab. Biol.; (United States), Journal Name: Biochem. Med. Metab. Biol.; (United States) Vol. 38:3; ISSN BMMBE
Country of Publication:
United States
Language:
English

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Related Subjects

550501* -- Metabolism-- Tracer Techniques
59 BASIC BIOLOGICAL SCIENCES
APOLIPOPROTEINS
BIOLOGICAL MATERIALS
BIOLOGICAL WASTES
BODY FLUIDS
COMPUTER CODES
DIFFERENTIAL EQUATIONS
EQUATIONS
ISOTOPE APPLICATIONS
LABELLING
LIPIDS
LIPOPROTEINS
MATERIALS
MATHEMATICAL MODELS
METABOLISM
ORGANIC COMPOUNDS
PROTEINS
RADIOACTIVITY
TRACER TECHNIQUES
URINE
WASTES