Journal of Lipid Research (May 1999)
Molecular bases of low production rates of apolipoprotein B-100 and truncated apoB-82 in a mutant HepG2 cell line generated by targeted modification of the apolipoprotein B gene
Abstract
In subjects with familial hypobetalipoproteinemia heterozygous for truncated forms of apolipoprotein B, both apoB-100 and the truncated forms are produced at lower than expected rates. We studied the mechanism of low levels of apoB in a cell model produced by targeted modification of the apob gene of HepG2 cells. One of the three alleles of apob was found to be targeted. The targeted cells expressed apoB-100 and B-82. The media of mutant cells contained 56% of the levels of apoB-100 present in the media of wild-type (WT) HepG2 cells. ApoB-82 was present at 11% of the apoB-100 levels in mutant cell media. An 85-kD protein (apoB-15) representing the N-terminal fragment of apoB was also secreted, but only in the mutant cell media. We examined the mechanism of low levels of apoB-82. Cellular apoB-82 mRNA was 11% of apoB-100 mRNA, lower than the 33% expected, but consistent with relative levels of apoB-82 in the media. ApoB mRNA transcription in WT and the mutant cells did not differ, while the levels of apoB-82 mRNA in nuclei and polysomes were 46% and 12% of the levels of apoB-100 mRNA, respectively, suggesting that the lower levels of apoB-82 mRNA were due to altered message stability. In a pulse/chase experiment with [35S]methionine, at zero time of chase, the amounts of apoB-100 in mutant cells was 66% that of WT levels, consistent with the modification of one allele. The fractions of newly synthesized apoB-100 secreted into the media at 2 h were 10% in the mutant cells and 19% in the WT cells, suggesting greater presecretory degradation of apoB-100 in the mutant cells. Thus, low levels of mutant apoB-82 mRNA gave rise to the low levels of apoB-82, while low levels of apoB-100 were due to low rates of secretion.—Srivastava, R. A. K., N. Srivastava, M. Averna, A. B. Cefalu, and G. Schonfeld. Molecular bases of low production rates of apolipoprotein B-100 and truncated apoB-82 in a mutant HepG2 cell line generated by targeted modification of the apolipoprotein B gene. J. Lipid Res. 1999. 40: 901–912.