BACKGROUND: Ligand-defective apolipoprotein (apo) B-100 is a major cause of hypercholesterolemia. For many years, apo B-100 (Arg3500-->Gln) has been the only mutation known to cause ligand-defective apo B-100. METHODS: Using temperature gradient gel electrophoresis, we screened 297 unrelated individuals with LDL-cholesterol >1.55 g/L and triglycerides <2.0 g/L for sequence variants of the putative LDL receptor-binding domain of apo B-100. RESULTS: We found apo B-100 (Arg3500-->Gln) in 21 individuals (7.1%). When extrapolated to the general population, this corresponds to the highest prevalence of apo B-100 (Arg3500-->Gln) reported to date. Furthermore, we identified three unrelated carriers (1%) of a silent substitution (CTG-->CTA) affecting the codon for leucine3350, four carriers (1.3%) of apo B-100 (Glu3405-->Gln), and two subjects (0.7%) with apo B-100 (Arg3500-->Trp). apo B-100 (Arg3500-->Trp) was assigned to two different, previously unknown haplotypes. The binding, uptake, and degradation of apo B-100 (Arg3500-->Trp) was lower than that of normal LDL, but higher than with apo B-100 (Arg3500-->Gln), implying that the substitution of Trp3500 for Arg may cause less severe reduction of binding than the substitution of Gln. LDL from individuals heterozygous for apo B-100 (Glu3405-->Gln) bound to LDL receptors at the same rate as normal LDL, but was taken up and degraded at significantly reduced rates, suggesting that domains of apo B-100 involved in binding and uptake do not completely overlap. CONCLUSIONS: In Germany, apo B-100 (Arg3500-->Gln) may be more frequent than previously assumed. Both apo B-100 (Arg3500-->Trp) and apo B-100 (Glu3405-->Gln) may contribute to the phenotype of ligand-defective LDL. These variants will be missed if screening is confined to apo B-100 (Arg3500-->Gln) only.
BACKGROUND: Ligand-defective apolipoprotein (apo) B-100 is a major cause of hypercholesterolemia. For many years, apo B-100 (Arg3500-->Gln) has been the only mutation known to cause ligand-defective apo B-100. METHODS: Using temperature gradient gel electrophoresis, we screened 297 unrelated individuals with LDL-cholesterol >1.55 g/L and triglycerides <2.0 g/L for sequence variants of the putative LDL receptor-binding domain of apo B-100. RESULTS: We found apo B-100 (Arg3500-->Gln) in 21 individuals (7.1%). When extrapolated to the general population, this corresponds to the highest prevalence of apo B-100 (Arg3500-->Gln) reported to date. Furthermore, we identified three unrelated carriers (1%) of a silent substitution (CTG-->CTA) affecting the codon for leucine3350, four carriers (1.3%) of apo B-100 (Glu3405-->Gln), and two subjects (0.7%) with apo B-100 (Arg3500-->Trp). apo B-100 (Arg3500-->Trp) was assigned to two different, previously unknown haplotypes. The binding, uptake, and degradation of apo B-100 (Arg3500-->Trp) was lower than that of normal LDL, but higher than with apo B-100 (Arg3500-->Gln), implying that the substitution of Trp3500 for Arg may cause less severe reduction of binding than the substitution of Gln. LDL from individuals heterozygous for apo B-100 (Glu3405-->Gln) bound to LDL receptors at the same rate as normal LDL, but was taken up and degraded at significantly reduced rates, suggesting that domains of apo B-100 involved in binding and uptake do not completely overlap. CONCLUSIONS: In Germany, apo B-100 (Arg3500-->Gln) may be more frequent than previously assumed. Both apo B-100 (Arg3500-->Trp) and apo B-100 (Glu3405-->Gln) may contribute to the phenotype of ligand-defective LDL. These variants will be missed if screening is confined to apo B-100 (Arg3500-->Gln) only.
Authors: M Chmara; B Wasag; M Zuk; J Kubalska; A Wegrzyn; M Bednarska-Makaruk; E Pronicka; H Wehr; J C Defesche; A Rynkiewicz; J Limon Journal: J Appl Genet Date: 2010 Impact factor: 3.240
Authors: Pradeep Natarajan; Nina B Gold; Alexander G Bick; Heather McLaughlin; Peter Kraft; Heidi L Rehm; Gina M Peloso; James G Wilson; Adolfo Correa; Jonathan G Seidman; Christine E Seidman; Sekar Kathiresan; Robert C Green Journal: Sci Transl Med Date: 2016-11-09 Impact factor: 17.956
Authors: Lauren Lawrence; Murat Sincan; Thomas Markello; David R Adams; Fred Gill; Rena Godfrey; Gretchen Golas; Catherine Groden; Dennis Landis; Michele Nehrebecky; Grace Park; Ariane Soldatos; Cynthia Tifft; Camilo Toro; Colleen Wahl; Lynne Wolfe; William A Gahl; Cornelius F Boerkoel Journal: Genet Med Date: 2014-05-01 Impact factor: 8.822