Uptake and degradation of iodine-labelled chylomicron remnant particles by monolayers of rat hepatocytes.

1. Rat chylomicrons were labelled with 125I with 69--72% of the iodine in the protein moiety. Less than 1 nmol of iodine was incorporated per nmol of protein. Of the peptide radioactivity 44--56% was in apolipoprotein A-1, 30--40% in the C peptides and 11--15% in apolipoprotine B. The arginine-rich peptide, which accounted for about 14% of the chylomicron protein mass as determined by scanning of sodium dodecyl sulphate-polyacrylamide gels, contained very little radioactivity. 2. Chylomicron remnants generated with postheparin plasma from iodine-labelled chylomicrons showed a relative increase in the percentage of the arginine-rich peptide (76--90% of the apolipoprotein mass according to gel scanning). The major portion of the peptide iodine label was present in apolipoprotein A-1 (43--57%), B (22--32%) and C peptides (17--35%). 3. When iodine-labelled chylomicron remnants were added to rat hepatocytes in primary culture, labelled peptides were taken up and degraded by the hepatocytes by a saturable process. The Vmax. for the uptake was calculated to the 300ng of protein/h per mg of cell protein and the apparent Km as 7.7 microgram of protein/mg of cell protein. A larger proportion of the 125I-labelled lipids of the remnants (mainly polar lipids) was taken up. This suggest that these may also enter the cells by a mechanism that does not involve particulate uptake, such as phospholipid exchange. 4. The degradation of labelled peptides was inhibited by colchicine, concanavalin A, chloroquine and NH4Cl, which also inhibit degradation of the cholesteryl ester portion. All these drugs exerted their inhibition mainly after the uptake of labelled peptide. No degradation occurred at 4 degrees C, and also the uptake was markedly decreased. 5. The uptake of labelled chylomicron remnant peptide was 77 times as effective as that of labelled sucrose, which is likely to be taken up randomly by pinocytosis.