The effects of liposome-reconstituted apolipoproteins on the binding of rat intermediate density lipoproteins to rat liver membranes.

Rat intermediate density lipoproteins (IDL) bind specifically to high and low affinity binding sites on rat liver membranes. In a recent paper (Brissette, L., and Noël, S.-P. (1986) J. Biol. Chem. 261, 6847-6852), we have demonstrated that human low density lipoproteins and high density lipoproteins-3 can totally prevent the specific binding of rat IDL to the low affinity binding sites. The aim of the present studies was to determine the effects of apoA-I, apoC, and apoE, reconstituted into liposomes, on the binding of rat iodinated IDL to rat liver membranes. We found that a 50-, 100-, or 300-fold excess of liposome-reconstituted apoE, apoC, or apoA-I, respectively, abolished the specific binding of IDL to the low affinity binding sites. Only apoE liposomes had an effect on the high affinity component; at a 100-fold excess no specific binding of IDL could be detected. Liposomes by themselves or associated with erythrocyte membrane proteins had virtually no effect on the binding of IDL. Taken together our results suggest that apoE is the only ligand that can compete efficiently for the sites that bind rat IDL with a high affinity. These sites may be the expression of both the remnant and the LDL receptors. The binding to the low affinity component probably represents weak interactions between IDL and "unspecified-lipoprotein binding sites," which can be entirely masked by human low density lipoproteins, high density lipoproteins-3, or liposome-reconstituted apoA-I, apoE, or apoC at appropriate concentrations.