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JBC, Vol. 250, Issue 18, 7204-7209, Sep, 1975
R. L. Jackson, A. M. Gotto, O. Stein and Y. Stein
The effects of human plasma lipoprotein-proteins on the removal of cellular
lipids from Landschutz ascites cells were studied. Cellular lipids were
labeled by injecting mice previously injected with ascites with either
[3H]cholesterol or [3H]choline. Apoproteins from very low density (apoC-I,
C-II, and C-111) and high density (apoA-I and A-II) lipoproteins were used.
Each of the apoproteins alone was ineffective in removing cellular
[3H]cholesterol. However, when synthetic phosphatidylcholines of known
composition were added to each apoprotein and the experiments were repeated
using either apoprotein-lipid mixtures or ultracentrifugally isolated
complexes, the removal of sterol was considerably enhanced. Complexes of
saturated phosphatidylcholines with apoA-II, apoC-I, or apoC-III were the
most effective in releasing cellular sterol. Apoprotein-phospholipid
complexes were much less effective in removing cellular
[3H]phosphatidylcholine than the free apoproteins; apoA-I and apoC-I were
the best of the five apoproteins studied. When a comparison was made of the
adsorption of iodinated apoproteins to ascites cells, 3 to 4 times more
apoA-II and apoC-III were bound than apoA-I. The binding of apoproteins was
time and temperature dependent. Approximately 50% of the radioactivity that
remained in the washed cells was removed with trypsin. To determine if the
counts remaining in the trypsin-treated cells were internalized, identical
experiments were performed using human erythrocytes, cells that do not
exhibit pinocytosis. Again, approximately 50% of the radioactivity of the
iodinated apoproteins was not released by trypsin. Succinylation of apoA-II
not only destroys its phospholipid-binding properties but also its
adsorption to red cells. These results suggest that the plasma apoproteins
differ in their ability to remove cellular lipids and bind to both ascites
and red cell membranes, and possibly to specific phospholipids, in such a
way that only a part of the apoprotein is degraded with proteases.
A comparative study on the removal of cellular lipids from Landschutz ascites cells by human plasma apolipoproteins
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