Chylomicrons (CM)1 and very low density lipoproteins (VLDL) are among the largest macromolecular complexes secreted from eukaryotic cells. The assembly of neutral lipids and phospholipids into CM and VLDL is nucleated around a single molecule of apoB and requires a microsomal triglyceride transfer protein (MTP) complexed to the endoplasmic reticulumresident protein, protein disulfide isomerase (PDI). The function of the MTP-PDI complex is to supply apoB with sufficient lipid to form a soluble lipoprotein. Defects of apoB and MTP cause hypobetalipoproteinemia and abetalipoproteinemia, respectively (1, 2).ApoB and MTP have structural homology with lamprey lipovitellin (LV) (3). LV contains an N-terminal -barrel (amino acids 17-296), an ␣-helical structure (amino acids 297-614), and a C-terminal lipid binding cavity (4). The structural relationship between MTP, apoB, and LV is supported by conservation of the gene and protein structure (3,5). Important features of the quaternary structure of the lamprey LV homodimer are adapted in MTP to form a heterodimer with PDI and to associate with apoB during lipoprotein production (3, 5). The defining difference between MTP, apoB, and LV is related to their C-terminal lipid binding structures, which associate with different amounts of lipid (3). LV binds principally phospholipid with a stoichiometry of ϳ35 molecules/subunit (6). MTP binds 1-5 molecules of lipid (7). ApoB has a long C-terminal extension (ϳ3500 amino acids), which incorporates a large neutral lipid core (8).Here, we have addressed the mechanism by which MTP-PDI acquires neutral lipid from phospholipid bilayers for the assembly of VLDL and CMs. In the absence of a crystal structure for MTP, we derived a homology model to guide mutagenesis and biophysical studies. The experimental data substantiate the overall predictions of the model and provide insights into the mechanism of lipid acquisition and binding. EXPERIMENTAL PROCEDURESModeling-Models were developed on the alignment shown in Fig. 1 and the x-ray crystal structure of lamprey LV (Protein Data Bank accession number 1LLV), refined to an R-value of 0.19 at 2.8 Å resolution (4). The C-sheet was modeled using INSIGHT interactive graphics software and the Homology computer program (Biosym Technologies, San Diego) and the A-sheet with the general purpose modeling program O (9). Models were energy minimized and the quality of the coordinates assessed as described (3).Mutagenesis and Expression Studies-Mutagenesis was performed by a polymerase chain reaction-based strategy (3). All constructs were sequenced before use. Transfections, preparation of cell extracts, and triglyceride transfer activities were performed as described (2, 3).Triglyceride Binding and Fusogenic Activity-Wild-type (WT) and mutant MTP-PDI complexes were purified as described (10). Donor small unilamellar vesicles (SUVs) were prepared as described (2), purified to homogeneity (11), and incubated with MTP (w/w 70:1) for 2 h at 37°C. Lipid-protein complexes were separated on a Sepharose CL-4B...
The microsomal triglyceride transfer protein (MTP) complexed to protein disulphide isomerase (PDI) is obligatory for the assembly of chylomicrons and very-low-density lipoproteins. The determination of the atomic structure of the MTP-PDI heterodimer has important implications for the treatment of those forms of hyperlipidaemia associated with the overproduction of very-low-density lipoproteins, which predispose to premature coronary heart disease. To perform structural studies of the human MTP-PDI complex it was necessary to produce milligram quantities of pure protein. We chose the baculovirus expression system for this purpose. Insects cells were co-infected with recombinant viruses encoding FLAG-tagged MTP and Histagged PDI ; the resulting heterodimer was purified by affinity chromatography. From 5 litres of insect cells, 4-6 mg of more
The microsomal triglyceride transfer protein (MTP) complexed to protein disulphide isomerase (PDI) is obligatory for the assembly of chylomicrons and very-low-density lipoproteins. The determination of the atomic structure of the MTP-PDI heterodimer has important implications for the treatment of those forms of hyperlipidaemia associated with the overproduction of very-low-density lipoproteins, which predispose to premature coronary heart disease. To perform structural studies of the human MTP-PDI complex it was necessary to produce milligram quantities of pure protein. We chose the baculovirus expression system for this purpose. Insects cells were co-infected with recombinant viruses encoding FLAG-tagged MTP and His-tagged PDI; the resulting heterodimer was purified by affinity chromatography. From 5 litres of insect cells, 4-6 mg of more than 95% pure recombinant protein was obtained. CD and attenuated total reflection Fourier-transform infrared spectroscopy indicate that the purified protein has around 34% alpha-helical and 33% beta-structure content. The recombinant protein had a comparable triglyceride transfer activity to that of bovine MTP-PDI. The production of polyclonal antibodies raised against the MTP and PDI subunits of the purified protein is described. The present study demonstrates the feasibility of expressing two proteins at high levels in insect cells and describes a transferable methodology for the purification of the resulting protein complex.
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