Abstract
The assembly of very low density lipoproteins in hepatocytes requires the microsomal triacylglycerol transfer protein (MTP). This microsomal lumenal protein transfers lipids, particularly triacylglycerols (TG), between membranes in vitro and has been proposed to transfer TG to nascent apolipoprotein (apo) B in vivo. We examined the role of MTP in the assembly of apoB-containing lipoproteins in cultured murine primary hepatocytes using an inhibitor of MTP. The MTP inhibitor reduced TG secretion from hepatocytes by 85% and decreased the amount of apoB100 in the microsomal lumen, as well as that secreted into the medium, by 70 and 90%, respectively, whereas the secretion of apoB48 was only slightly decreased and the amount of lumenal apoB48 was unaffected. However, apoB48-containing particles formed in the presence of inhibitor were lipid-poor compared with those produced in the absence of inhibitor. We also isolated a pool of apoB-free TG from the microsomal lumen and showed that inhibition of MTP decreased the amount of TG in this pool by approximately 45%. The pool of TG associated with apoB was similarly reduced. However, inhibition of MTP did not directly block TG transfer from the apoB-independent TG pool to partially lipidated apoB in the microsomal lumen. We conclude that MTP is required for TG accumulation in the microsomal lumen and as a source of TG for assembly with apoB, but normal levels of MTP are not required for transferring the bulk of TG to apoB during VLDL assembly in murine hepatocytes.
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