Abstract
In this study, we tested the hypothesis that two separate pathways, the two-step process and an apolipoprotein B (apoB) size-dependent lipidation process, give rise to different lipoproteins. Expression of apoB-100 and C-terminally truncated forms of apoB-100 in McA-RH7777 cells demonstrated that VLDL particles can be assembled by apoB size-dependent linear lipidation, resulting in particles whose density is inversely related to the size of apoB. This lipidation results in a LDL-VLDL 2 particle containing apoB-100. VLDL 1 is assembled by the two-step process by apoB-48 and larger forms of apoB but not to any significant amount by apoB-41. The major amount of intracellular apoB-80 and apoB-100 banded with a mean density of 1.10 g/ml. Its formation was dependent on the sequence between apoB-72 and apoB-90. This dense particle, which is retained in the cell, possibly by chaperones or association with the microsomal membrane, is a precursor of secreted VLDL 1. The intracellular LDL-VLDL 2 particles formed during size-dependent lipidation appear to be the precursors of intracellular VLDL 1. We propose that the dense apoB-100 intracellular particle is converted to LDL-VLDL 2 by size-dependent lipidation. LDL-VLDL 2 is secreted or converted to VLDL 1 by the uptake of the major amount of triglycerides.
Highlights
In this study, we tested the hypothesis that two separate pathways, the two-step process and an apolipoprotein B size-dependent lipidation process, give rise to different lipoproteins
Lipoproteins assembled and secreted from McA-RH7777 cells transfected with different lengths of apolipoprotein B (apoB)
Sucrose gradient ultracentrifugation was used to investigate the lipoproteins secreted by McA-RH7777 cells transfected with apoB-41, apoB-53, apoB-72, and apoB-80 as well as the species secreted by endogenous apoB-100 and apoB-48
Summary
We tested the hypothesis that two separate pathways, the two-step process and an apolipoprotein B (apoB) size-dependent lipidation process, give rise to different lipoproteins. Expression of apoB-100 and C-terminally truncated forms of apoB-100 in McA-RH7777 cells demonstrated that VLDL particles can be assembled by apoB size-dependent linear lipidation, resulting in particles whose density is inversely related to the size of apoB. This lipidation results in a LDL-VLDL 2 particle containing apoB-100. The lengths of C-terminally truncated forms of apoB100 are inversely related to the amount of lipid in the lipoproteins they assemble; assembly with apoB-100 results in VLDL (12) This size-dependent lipidation of apoB does not fit the two-step model; in particular, it cannot explain why apoB-48 has the ability to assemble VLDL but apoB-40 lacks this ability (8)
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