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Journal of Lipid Research, Vol 26, 1047-1057, Copyright © 1985 by Lipid Research, Inc.
PR Bukberg, NA Le, HN Ginsberg, JC Gibson, A Rubinstein and WV Brown
Using immunoaffinity chromatography to isolate apoC-III from radiolabeled
lipoproteins for direct determination of specific radioactivity, we have
studied the metabolism of human apoC-III in VLDL and in HDL following the
bolus injection of 125I-labeled VLDL. Transfer of apoC-III radioactivity
from VLDL to HDL was detected in the plasma sample drawn 5 min after
injection of the tracer. However, the specific radioactivity of apoC-III in
VLDL was found to be higher than that in HDL, with this difference being
maintained throughout the sampling period (48-72 hr). The ratios of the
respective specific activities ranged from 1.2 to 1.9 in six subjects
studied (two normolipidemics and four hypertriglyceridemics). When
125I-labeled HDL was injected as the tracer, however, the higher apoC-III
specific radioactivity was associated with the HDL fraction. This lack of
complete equilibration of apoC-III between VLDL and HDL in vivo was further
characterized by in vitro studies using either 125I-labeled VLDL or
125I-labeled HDL. All incubations were carried out for 3 hr at 37 degrees C
followed by 16 hr at 4 degrees C and the apoC-III specific activity in each
lipoprotein fraction was directly determined after immunoaffinity
chromatography. In a study of plasma from a mildly hypertriglyceridemic
subject in which 125I-labeled VLDL was incubated with unlabeled HDL,
apoC-III specific activities in VLDL remained 30% greater than that in HDL.
When 125I-labeled HDL (from the same subject) was incubated with unlabeled
VLDL of apoC-III, final specific activity in VLDL was less than 10% of that
of HDL apoC-III. Differences in specific activities were also demonstrated
when radiolabeled purified apoC-III was exchanged onto VLDL prior to its
incubation with HDL. A consistent difference in apoC-III specific
activities in VLDL and HDL was observed after isolation of the particles
either by molecular sieve chromatography or by ultracentrifugation. These
studies demonstrated that, while the exchange of apoC-III between VLDL and
HDL may be very rapid, this equilibration is not complete. Pools of
apoC-III that do not participate in the equilibration process are present
in both the VLDL and HDL fractions and could account for 30-60% of the
total apoC- III mass in each lipoprotein fraction.
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Evidence for non-equilibrating pools of apolipoprotein C-III in plasma lipoproteins
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