A MISSENSE MUTATION AT CODON-188 OF THE HUMAN LIPOPROTEIN-LIPASE GENE IS A FREQUENT CAUSE OF LIPOPROTEIN-LIPASE DEFICIENCY IN PERSONS OF DIFFERENT ANCESTRIES

被引:158
作者
MONSALVE, MV
HENDERSON, H
ROEDERER, G
JULIEN, P
DEEB, S
KASTELEIN, JJP
PERITZ, L
DEVLIN, R
BRUIN, T
MURTHY, MRV
CAGNE, C
DAVIGNON, J
LUPIEN, PJ
BRUNZELL, JD
HAYDEN, MR
机构
[1] UNIV CAPE TOWN, DEPT CHEM PATHOL, CAPE TOWN, SOUTH AFRICA
[2] CLIN RES CTR, HYPERLIPIDEMIA & ATHEROSCLEROSIS RES GRP, HARROW HA1 3UJ, MIDDX, ENGLAND
[3] LAVAL UNIV HOSP, LIPID RES CTR, QUEBEC CITY G1V 4G2, QUEBEC, CANADA
[4] UNIV WASHINGTON, DEPT MED, SEATTLE, WA 98195 USA
[5] UNIV AMSTERDAM, CTR THROMBOSIS HEMOSTASIS & ATHEROSCLEROSIS, AMSTERDAM, NETHERLANDS
[6] UNIV LAVAL, DEPT BIOCHEM, QUEBEC CITY G1K 7P4, QUEBEC, CANADA
[7] FISHERIES & OCEANS CANADA, W VANCOUVER G1V 4G2, BC, CANADA
来源
JOURNAL OF CLINICAL INVESTIGATION | 1990年 / 86卷 / 03期
关键词
Ancestral origins; Catalysis; Lipoprotein lipase; Missense mutation;
D O I
10.1172/JCI114769
中图分类号
R-3 [医学研究方法]; R3 [基础医学];
学科分类号
1001 ;
摘要
Lipoprotein lipase (LPL) plays a crucial role in the regulation of lipoprotein metabolism by hydrolysing the core triglycerides of circulating chylomicrons and VLDL. Human, bovine, mouse, and guinea pig complementary DNA clones have recently been isolated and the organization of the human LPL gene is now known to comprise 10 exons spanning ∼ 30 kb. Here we report a similar mutation on 21 alleles from 13 unrelated affected probands with LPL deficiency of French Canadian, English, Polish, German, Dutch, and East Indian ancestry. We show that an identical missense mutation within exon 5, resulting in an amino acid substitution of glutamic acid for glycine at position 188, is responsible for LPL deficiency in 21 of 88 LPL alleles assessed. This mutation alters an Ava II restriction site in exon 5 and will allow a rapid screening test for this mutation in patients with LPL deficiency. This mutation has occurred on the same haplotype in all the unrelated affected persons suggesting a common origin. The amino acid substitution lies within the longest segment of homology for LPL in different species and results in a protein that is catalytically defective.
引用
收藏
页码:728 / 734
页数:7
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