Abstract
Upon incubation with rat liver membranes, radioiodinated rat intermediate density lipoproteins (IDL) interacted with at least two binding sites having a low and a high affinity as demonstrated by the curvilinear Scatchard plots obtained from the specific binding data. The purpose of our work was to identify the nature of these binding sites. Human low density lipoproteins (LDL), contain apolipoprotein B only, and human high density lipoproteins (HDL3), containing neither apolipoprotein B nor E, were both capable of decreasing the specific binding of rat 125I-IDL. The Scatchard analysis clearly revealed that only the low affinity component was affected by the addition of these human lipoproteins. In fact, the low affinity binding component gradually decreased as the amount of human LDL or HDL3 increased in the binding assay. At a 200-fold excess of human LDL or HDL3, the low affinity binding was totally masked, and the Scatchard plot of the specific 125I-IDL binding became linear. Only the high affinity binding component was left, enabling a precise measurement of its binding parameters. In a series of competitive displacement experiments in which the binding assay contained a 200-fold excess of human LDL or HDL3, only unlabeled rat IDL effectively displaced the binding of rat 125I-IDL. We conclude that the low affinity binding of rat IDL to rat liver membranes is due to weak interactions with unspecified lipoprotein binding sites. The camouflage of these sites by human lipoproteins makes possible the study of IDL binding to the high affinity component which likely represents the combined effect of IDL binding to both the remnant and the LDL receptors.
Highlights
Upon incubation withrat liver membranes, radioio- cleared by the liver (3) via high affinity receptors
Thelow affinity binding component gradually decreased as the amount of human low density lipoproteins (LDL) or HDL3 increased in the binding assay
We have ments inwhich the binding assay containead 200-fold shown that thebinding of Intermediatedensity lipoproteins (IDL) to thelow affinity component excess of human LDL or HDL, only unlabeled rat IDL was gradually decreased and eventually disappeared in the effectively displaced the binding of rat '*'I-IDL.We presence of increasing amounts of human LDL
Summary
Upon incubation withrat liver membranes, radioio- cleared by the liver (3) via high affinity receptors. We have ments inwhich the binding assay containead 200-fold shown that thebinding of IDL to thelow affinity component excess of human LDL or HDL,, only unlabeled rat IDL was gradually decreased and eventually disappeared in the effectively displaced the binding of rat '*'I-IDL.We presence of increasing amounts of human LDL The camouflage of these sites by human lipoproteins makes possible the study of IDL binding to the high affinity component which likely represents the combined effect of IDL apo-B only) or human HDL3 (containing no apo-B or apo-E). We showed that the high affinity component is likely to be the additive effect of both the remnant and the LDL receptors
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