Familial defective apolipoprotein B-100 in Slovakia: are differences in prevalence of familial defective apolipoprotein B-100 explained by ethnicity?

The objective of this study was to examine frequency of familial defective apo-B-100 (FDB, R3500Q mutation) in probands with the phenotype of familial hypercholesterolemia (FH) and in the general population of 40-year-old subjects in Slovakia and to characterize their lipid and clinical criteria and to compare the frequency of FDB with other populations. We identified 35 patients with FDB among 362 probands with clinical diagnosis of FH and two cases of FDB in the 40-year-old cohort of 2323 subjects from general Slovak population. Probands with FDB differed from those with FH only in plasma triglyceride concentrations (1.84+/-1.4 mmol/l versus 1.45+/-0.98 mmol/l, respectively, p<0.01). Evaluation of personal history of premature atherosclerosis did not show any differences (11.4% in FDB versus 20% in FH, p<0.16). The FDB patients had similar manifestation of xanthomatosis as the FH patients (17.1% versus 8.25%, p<0.25). The frequency of FDB of 9.7% found in the FH patients is among the highest of those reported to date. The frequency of R3500Q mutation of 0.09% found in Slovak 40-year-old subjects did not differ significantly from published population molecular data. Our comparison of estimated FDB frequencies with those which were found by DNA analysis demonstrated that estimated frequencies were not only wider in range, but also significantly higher than those which were assessed by the analysis. The definitive answer to the prevalence of FDB and its biochemical and clinical characteristics requires screening of unbiased samples of the general population from different ethnic groups based on molecular genetic methods.     

The apolipoprotein B R3500Q gene mutation in Spanish subjects with a clinical diagnosis of familial hypercholesterolemia

Familial hypercholesterolemia (FH) and familial defective apolipoprotein B-100 (FDB) are autosomal codominant diseases characterized by elevated LDL cholesterol levels and premature coronary artery disease. Mutations of the LDL-receptor and apolipoprotein B genes, which affect the binding domains of their protein products, are the causal defects. Securing the diagnosis of these conditions by molecular assays is important because it mandates early intervention for coronary risk reduction. DNA screening for apolipoprotein B R3500Q gene mutation was performed in 913 unrelated Spanish individuals with a clinical diagnosis of FH using a modified polymerase chain reaction protocol and restriction enzyme genotyping. Thirteen FDB heterozygotes were identified (frequency of 1.4% in subjects with a clinical diagnosis of FH). The prevalence of hypercholesterolemic subjects with FDB in the general Spanish population was estimated to be as low as 2.8 x 10(-5) (95% CI, -3.1 x 10(-4) to 3.7 x 10(-4)). The ancestors of 11 out of 13 FDB carriers were from Galicia, a region of Celtic ancestry in Northwestern Spain. As the series included 100 unrelated subjects of Galician ancestry, FDB appears to be an important genetic cause of hypercholesterolemia in this region. All the R3500Q mutations were found on the same allele, assigned to haplotype XbaI-/MspI+/EcoRI-/3HVR48, suggesting that the mutant alleles are identical by descent in people from Spain, as observed in other Caucasian populations. In conclusion, the R3500Q mutation of the apolipoprotein B gene, a common cause of FH in central Europe, is infrequent in the general Spanish population, but it is common in Galicia.     

低密度脂蛋白受体基因突变类型的筛查

目的调查我国家族性高胆固醇血症(FH)患者低密度脂蛋白受体基因突变类型。方法以患者的基因组DNA为模板,用聚合酶链反应扩增该基因的18个外显子。用单链构象多态性方法分析检测PCR产物,对电泳结果异常者进行DNA测序;错配引物PCR引入Msp Ⅰ酶切位点检测最常见的载脂蛋白B基因突变类型R3500Q。结果经单链构象多态性分析发现,7个先证者有异常电泳条带出现。DNA测序证实,先证者存在9个突变位点。经文献检索发现除C255R外,其余均系尚未报道的新突变类型。在所有FH患者中未检测出载脂蛋白B基因突变。结论中国人FH患者可能存在独特的低密度脂蛋白受体基因突变谱。     

A new but frequent mutation of apoB-100-apoB His3543Tyr

ApolipoproteinB 100 (apoB-100) is an important component of atherogenic lipoproteins such as LDL and serves as a ligand for the LDL-receptor. Familial defective apolipoproteinB 100 (FDB) is caused by a R3500Q mutation of the apoB gene and results in decreased binding of LDL to the LDL-receptor. So far FDB is the most frequent and best studied alteration of apoB-100. Apart from this, three other apoB mutations, R3500W, R3531C and R3480W, affecting binding to the LDL-receptor are known to date. We screened the apoB gene segment of codons 3448-3561 by denaturing gradient gel electrophoresis (DGGE) analysis in a total of 853 consecutively sampled German patients undergoing diagnostic coronary angiography for suspected CAD. By this, a new single base mutation was detected and confirmed by DNA sequencing. The mutation, CAC(3543)TAC results in a His3543Tyr substitution in apoB-100 (H3543Y). The prevalence of heterozygotes for H3543Y in the study population was 0.47% compared to 0.12% for the known Arg 3500 Gln (R3500Q) mutation. In conclusion, the new mutation is four times more frequent than "classical" FDB and thus appears to be the most common apoB mutation in Germany.     

Familial hypercholesterolaemia in Portugal

Familial hypercholesterolaemia (FH) is characterised clinically by an increased level of circulating LDL cholesterol that leads to lipid accumulation in tendons and arteries, premature atherosclerosis and increased risk of coronary heart disease (CHD). Although Portugal should have about 20,000 cases, this disease is severely under-diagnosed in our country, this being the first presentation of Portuguese data on FH. A total of 602 blood samples were collected from 184 index patients and 418 relatives from several centres throughout Portugal. Fifty-three different mutations were found in 83 index patients, 79 heterozygous and 4 with two defective LDLR alleles. Additionally, 4 putative alterations were found in 8 patients but were not considered mutations causing disease, mainly because they did not co-segregate with hypercholesterolaemia in the families. Three unrelated patients were found to be heterozygous for the APOB(3500) mutation and two unrelated patients were found to be heterozygous for a novel mutation in PCSK9, predicted to cause a single amino acid substitution, D374H. Cascade screening increased the number of FH patients identified genetically to 204. The newly identified FH patients are now receiving counselling and treatment based on the genetic diagnosis. The early identification of FH patients can increase their life expectancy and quality of life by preventing the development of premature CHD if patients receive appropriate pharmacological treatment.     

家族性高胆固醇血症患者低密度脂蛋白受体基因复合纯合突变一例

目的 检测家族性高胆固醇血症(FH)患者低密度脂蛋白受体(LDL—R)基因点突变，分析基因型与临床表型间的关系，探讨其分子病理机制。方法以1例临床诊断为FH纯合子患儿及其父母的基因组DNA为模板，用降落PCR方法，在同一程序中分别对LDL—R基因的启动子和全部18个外显子片段进行扩增，琼脂糖凝胶电泳检测，扩增产物直接进行核苷酸序列分析，并检索FH突变数据库(www．ucl．ac．uk／fh)。此外采用PCR-限制性内切酶技术，检测载脂蛋白(Apo)B100基因Q3500R突变，以排除家族性Apo B100缺陷症。结果该患儿及其父亲第4外显子发生Cys^122→Tyr(C122Y)杂合错义突变，同时患儿及其母第9外显子发生Thr^273→Ile(17383I)杂合错义突变，因此该患儿LDLR基因第4、9外显子各存在一个杂合突变，上述突变尚未在FH突变数据库见到。未检测出患儿及其父母Apo B100Q3500R突变。结论此患儿为LDL—R基因存在C122Y、T3831合纯合突变并分别来自其父母；以上两位点突变可引起FH；是FH患者LDL-R基因的一种新突变类型。     

Molecular genetics of familial hypercholesterolaemia in Norway

Objectives. To characterize mutations in the low density lipoprotein (LDL) receptor gene causing familial hypercholesterolaemia (FH) amongst Norwegian patients.
Design. Molecular genetic analyses of the LDL receptor gene have been performed in patients with a clinical diagnosis of FH.
Subjects. A total of 742 probands have been studied. Of these, 476 had a diagnosis of definite FH. The rest had a diagnosis of possible FH.
Results. Twenty-three different mutations in the LDL receptor gene as well as the apolipoprotein B-3500 mutation have been found. Six of the mutations in the LDL receptor gene are novel mutations. A molecular genetic diagnosis was achieved in 295 of the probands with definite FH (62%) and in 317 probands total. Of the 317 probands, 3% carried the apolipoprotein B-3500 mutation. When family members were included, a total of 624 persons carried a mutation in the LDL receptor gene and 20 carried the apolipoprotein B-3500 mutation.
Conclusions. Approximately 5% of Norwegian FH patients have been provided with a molecular genetic diagnosis. Our data suggest that molecular diagnosis of FH in Norway is feasible and should be implemented in clinical medicine.     

Familial defective apolipoprotein B-100: detection and haplotype analysis of the Arg(3500)-->Gln mutation in hyperlipidemic Chinese

Familial defective apolipoprotein (apo) B-100 (FDB) is caused by R3500Q mutation of the apo B gene resulting in decreased binding of LDL to the LDL receptor. Two other apo B mutations, R3500W and R3531C, affecting binding are known to date. We screened the apo B gene segment around codon 3500 by heteroduplex analysis and single strand conformation polymorphism (SSCP) analysis in a total of 373 hyperlipidemic individuals. Two single-base mutations were detected and confirmed by DNA sequencing. One mutation, ACA(3528)-->ACG change, resulted in degenerate codon with no amino acid substitution. The other mutation, CGG(3500)-->CAG mutation, resulted in an Arg(3500)-->Gln substitution (R3500Q). The prevalence of heterozygote in this selected population was 0.3% (95% confidence interval, 0.01-1.5%) for the R3500Q mutation, and 2.4% (95% confidence interval, 1.1-4.5%) for the previously described R3500W mutation. The results suggest that the R3500Q mutation is not a significant factor contributing to moderate hypercholesterolemia in Chinese (P=0.027). Family studies of the R3500Q carrier revealed a further two individuals heterozygous for the mutation, both of whom were hypercholesterolemic. Analysis of the R3500Q allele using six diallelic markers and the 3'HVR marker revealed a haplotype which was the same as that reported in a Chinese American but differed from that reported in a Chinese Canadian. Our data support limited multiple recurrent origins for R3500Q in Chinese population.     

Familial defective apolipoprotein B-100: detection in the United Kingdom and Scandinavia, and clinical characteristics of ten cases

Familial defective apolipoprotein B-100 (FDB) is a recently identified, dominantly inherited genetic disorder, which leads to increased serum concentration of low density lipoprotein (LDL) cholesterol with reduced affinity for the LDL receptor. This disorder is associated with a G to A mutation in exon 26 of the apolipoprotein B (apo B) gene which creates a substitution of glutamine for arginine in the codon for amino acid 3500. We have searched for this mutation in 374 unrelated individuals with hyperlipidaemia from the United Kingdom, and in 371 unrelated individuals with a primary clinical diagnosis of atherosclerosis from the United Kingdom and Scandinavia. Ten individuals, 9 from the U.K. and 1 from Denmark, were identified. The frequency of the mutation was 3% in individuals classified clinically as having familial hypercholesterolaemia (FH) and 3% in individuals with type IIa hyperlipidaemia without FH, and was not found in patients with types IIb and III hyperlipidaemia. The mutation was rare in individuals with a primary clinical diagnosis of atherosclerosis. Plasma lipid levels and clinical characteristics of the ten patients identified in the present study are similar to those reported for heterozygous FH. Thus, in our study, FDB is associated with moderate to severe hypercholesterolaemia, and appears to be a serious disorder causing premature cardiovascular disease. Individuals with this mutation can be identified unambiguously using routine molecular screening techniques.     

家族性高胆固醇血症家系低密度脂蛋白受体活性及其基因突变分析

目的:对1例临床诊断为家族性高胆固醇血症(FH)纯合子患者家系进行低密度脂蛋白受体(LDL-R)活性研究及其基因突变分析,旨在探讨其分子病理机制。方法:对先证者及其父母进行血脂、颈动脉超声等检查;采用流式细胞仪检测先证者及其父母外周血淋巴细胞LDL-R表达量和功能;以先证者基因组DNA为模板,扩增载脂蛋白B100(ApoB100)基因3500区域片断,PCR产物进行核苷酸序列分析,排除由该突变导致家族性ApoB100缺陷症;用降落式PCR方法,在同一程序中分别扩增LDL-R基因的启动子和全部18个外显子片段,扩增产物进行核苷酸序列分析;发现突变后验证其父母是否存在相同基因突变。结果:先证者血清TC和LDL水平明显升高、颈动脉内中膜明显增厚;LDL-R的表达量和结合功能显著下降(分别为正常人的13.6%和21.1%);ApoB100基因3500区域未见突变,LDL-R基因第1864位碱基T取代了G发生纯合错义突变,导致第601位氨基酸天冬氨酸变成脯氨酸(D601Y)。其父母LDL-R基因发现了相同的杂合突变,经检索该突变在我国未见报道。结论:证实家系先证者存在LDL-R基因突变,分别来源于父系和母系的遗传,该突变可能是家系发病的分子基础;D601Y也可能是我国FH患者LDL-R基因一种新的突变类型。     

Molecular genetic analysis of familial hypercholesterolemia: spectrum and regional difference of LDL receptor gene mutations in Japanese population

To determine the molecular basis of familial hypercholesterolemia (FH) in Japan, 200 unrelated patients with clinically diagnosed heterozygous FH were screened for mutations in coding and promoter region of the low density lipoprotein (LDL) receptor gene using denaturing gradient-gel electrophoresis (DGGE), DNA sequencing and Southern blotting analysis. About 37 different mutations in the LDL receptor gene were identified in 125 (62.5%) of the patients, 22 of these mutations have not been described before. The most common mutations were K790X (19.5%), P664L (6.0%), FH-Tonami-1 (6.0%), IVS15-3C>A (5.5%) and FH-Tonami-2 (4.5%), whereas the other mutations were rare. No apolipoprotein B (apoB) mutations responsible for familial ligand-defective apoB-100 (FDB) were identified. Polymorphisms of apolipoprotein E (apoE) and scavenger receptor class B type I (SR-BI) were observed to have minor effects on the lipid and lipoprotein profile. In 75 (32.5%) of the FH patients, LDL receptor gene mutations could not be identified. These patients had significantly lower total cholesterol (7.71+/-1.64 vs. 8.68+/-1.47 mmol/l, P<0.001) and LDL-cholesterol (6.02+/-1.51 vs. 6.87+/-1.47 mmol/l, P<0.001) in plasma, also a lower incidence of coronary heart disease (CHD) (22 vs. 29%, P=0.05) compared with patients with a LDL receptor gene mutation, suggesting that besides LDL receptor, defect of other genes involved in LDL metabolism may be a cause of FH with a milder phenotypic expression in Japanese population.     

The use of Achilles tendon ultrasonography for the diagnosis of familial hypercholesterolemia

Differentiating FH from other causes of hypercholesterolemia has important clinical and therapeutic implications but is often not possible by standard clinical criteria. As accumulation of cholesterol in tendon is generally considered as pathognomonic of FH, we evaluated the sensitivity and specificity of clinical and ultrasonographic tendon characteristics using the data of 127 genetically ascertained FH and 160 controls with various lipid profiles. Upon clinical examination, none of the controls and 29% of FH individuals (17% FH women and 38% FH men) presented with xanthomata in Achilles tendons, but no female and only 6% of male FH patients also showed xanthomata in the extensor tendon of the hand. Amongst all possible quantitative parameters (thickness, breadth, section and roundness) of Achilles tendon (AT) measured by ultrasonography, the thickness presented the best receiver operating curves. AT thickness above 5.8 mm was the most useful threshold for diagnosis of FH, procuring sensitivity of 75% and specificity of 85%. Analysis of variation of AT thickness with age and sex indicated that this clinical criterion performed better in females older than 45 and in males under 45. In patients carrying the APOB-R3500Q mutation, AT-thickness appeared significantly less important compared with those carrying LDLR mutations. In conclusion, this study recommends identification of possible FH individuals amongst hypercholesterolemic patients using a criteria of AT-thickness over 5.8 mm eventually associated with a specific genetic test for APOB-R3500Q mutation.     

Mutation screening and genotype:phenotype correlation in familial hypercholesterolaemia

The aim of this study was to develop a mutation screening protocol for familial hypercholesterolaemia (FH) patients and to assess genotype/phenotype effects in terms of pre-treatment lipid profiles and presentation of tendon xanthomata (TX). A total of 158 families with clinical definitions of possible (120) or definite (38) FH were studied using a tiered screening protocol. Mutations were identified in 52 families, 44 families showing 23 different LDLR gene defects and eight families showing the common Apo B100 gene defect R3500Q. LDLR defects were detected in various regions of the gene with 56% in the LDL binding domain (exons 2-6) and 37% in the EGF precursor homology domain (exons 7-14). The most common mutations were D461N(7), C210X(5), 932delA(5), and C163Y(4). Frameshift mutations accounted for 20% with nonsense 13%, mis-sense 35%, splice 3%, Apo B 13% and 2% large deletion, 13% of clinically definite FH remained undefined. In conclusion, DNA based diagnosis is possible in 79% (30/38) of clinically definite FH families and of the 120 possible FH families at the start of the screening program, 18% (22/120) now have defined mutations. Overall 60 families from the original 158 meet the clinical and/or genetic criteria for definite FH. Tendon xanthomata were present in only 58% (30/52) of genetically defined FH families, thus limiting its use as a strict diagnostic criteria. Families with low density lipoprotein receptor (LDLR) defects present with higher total and LDL cholesterol levels and a higher incidence of TX than do those with the common Apo B variant, and frameshift mutations appear to have the most severe presentation.     

Familial defective apolipoprotein B100: clinical characteristics of 54 cases.

Familial defective apolipoprotein B100 (FDB) is a recently identified dominantly inherited genetic disorder, which is characterized by a decreased affinity of low density lipoprotein (LDL) for the LDL receptor. FDB is caused by a G to A mutation at nucleotide 10 708 in exon 26 of the apo B gene creating a substitution of glutamine for arginine in the codon for amino acid 3500. To determine the consequences of the arginine(3500)----glutamine mutation on plasma lipid levels and other clinical features, we have investigated 54 FDB heterozygotes from Germany (24 men, 30 women, mean age 37.2 (4-73) years). The average total cholesterol level in plasma was 308 mg/dl (average LDL-cholesterol 242 mg/dl), which was 116 mg/dl (120 mg/dl) above the 50th percentile of the age and sex-matched controls reported in the LRC population studies (Lipid Research Clinics' Program 1980). Tendon xanthoma and arcus lipoides were present in 25.9% and 22.2% of the patients, respectively. Plaques in the carotid arteries, determined by duplex scanning, were present in 38.9%, and coronary artery disease was present in 22.2%. This study shows that the combination of tendon xanthoma, arcus lipoides and premature atherosclerosis is no longer totally appropriate for the diagnosis of familial hypercholesterolemia (FH). It rather seems that these features are characteristic of a defective LDL receptor pathway, which could be caused by a defective LDL receptor or a defective ligand apo B100. The distinction between FH and FDB may have therapeutic implications, because certain lipid lowering drugs act by stimulation of the LDL receptor, which has a normal function in FDB.     

The Trp-Stop and Trp-Gly mutations in the LDL receptor gene: common causes of familial hypercholesterolemia in Denmark

Mutations in the gene for the low density lipoprotein (LDL) receptor cause the autosomal dominant disease familial hypercholesterolemia (FH), the prevalence of which is about 0.2% in most populations. By PCR-SSCP analysis and direct sequencing, we identified the receptor-negative Trp²³-Stop LDL receptor mutation (FH Cincinnati-5) in 10 of 63 FH probands and the receptor-defective Trp⁶⁶-Gly LDL receptor mutation (FH French Canadian-4) in another 10 of the 63 FH probands. These two mutations thus account for 30% of diagnosed FH families in Denmark. Comparison of the mean lipid concentrations (unadjusted and adjusted for age), including serum total cholesterol and LDL-cholesterol, showed no significant differences between the two groups of FH heterozygote probands (cholesterol: 10.7 mmol/l vs. 10.7 mmol/l) and between the probands and 16 and 22 non-proband family members with the Trp²³-stop (cholesterol: 10.1 mmol/l) and Trp⁶⁶-Gly (cholesterol: 10.7 mmol/l) mutations, respectively.     

The molecular basis of familial hypercholesterolaemia in Turkish patients

Familial hypercholesterolaemia (FH) is an autosomal dominant disorder of lipoprotein metabolism. In the majority of patients FH is caused by mutations in the gene for the low-density lipoprotein receptor (LDLR), and to date more than 700 mutations have been reported worldwide. In this study, 36 paediatric patients with a clinical diagnosis of FH (20 homozygous and 16 heterozygotes) were screened for mutations in the LDLR gene. Each exon, with intron-exon junctions, was screened by capillary fluorescent SSCP (F-SSCP) and heteroduplex analysis. Samples showing different band patterns were sequenced. Ten novel (including three frame shift small deletions or insertions) and seven known mutations were detected. A total of 37 out of the predicted 56 FH-causing alleles were identified (66.1%). No patients with the R3500Q mutation in the APOB gene were found. W556R was the most common mutation, explaining 21.4% of the predicted defective LDLR alleles. The novel sequence changes were deemed to be pathogenic if they altered a conserved amino acid (L143P, D147E, Q233H-C234G, C347G) or occurred in or close to a splice site (IVS 16+5) and were absent in DNA from 50 healthy Turkish subjects. These data confirm the genetic heterogeneity of FH in Turkey, and demonstrate the usefulness of F-SSCP for mutation detection.     

Rapid screening for specific mutations in patients with a clinical diagnosis of familial hypercholesterolaemia.

We describe a rapid screening procedure to identify known DNA sequence changes in individuals diagnosed as having heterozygous familial hypercholesterolaemia (FH). The screening is made possible by combining a rapid DNA extraction protocol and small scale polymerase chain reaction DNA amplification, followed by oligonucleotide melting or restriction enzyme digestion. We have screened for two different mutations; firstly a mutation in the apolipoprotein B (apo B) gene that results in the substitution of glutamine (Gln) for arginine (Arg) at amino acid residue 3500 (apo B3500 mutation). Apo B is the principal component of the protein moiety of low density lipoprotein (LDL) and the mutation reduces the affinity for the LDL receptor (LDL-R). Secondly we have screened for a point mutation in the LDL-R gene itself that creates a new Pst I restriction enzyme site. This mutation in the LDL-R gene (LDL-R664 mutation) results in the substitution of leucine (Leu) for proline (Pro) at amino acid 664 and is known to slow processing of the LDL-R precursor to the mature form and to reduce the affinity of the receptor on the cell surface for LDL. In 77 unrelated patients with a clinical diagnosis of FH two out of 77 (2.6%) were positive for the apo B3500 mutation. Three (3.9%) were positive for the LDL-R664 mutation. Thus these two mutations might account for 5-6% of patients in the U.K. with a clinical diagnosis of FH (5000-6000 people).(ABSTRACT TRUNCATED AT 250 WORDS)     

Familial defective apolipoprotein B versus familial hypercholesterolemia: an assessment of risk

Patients with familial hypercholesterolemia (FH) or familial defective apolipoprotein B (FDB) have severely increased low-density lipoprotein (LDL)-cholesterol levels and increased risk for premature coronary artery disease (CAD). Previous data on FDB patients were collected in patients referred to lipid clinics and were therefore subject to referral bias. We assessed the clinical phenotype of FDB in a population free from selection on CAD to compare the atherosclerotic burden with that of heterozygous FH. The study population was actively recruited in a large-scale screening program for inherited hypercholesterolemia in which FH and FDB heterozygotes were diagnosed by standard molecular techniques. Patients with FH and FDB had significantly higher plasma total cholesterol and LDL-cholesterol levels compared with their unaffected relatives. As with previous findings in FH, in FDB 19% of the carriers and 17% of the noncarriers of apoB mutations would have been misdiagnosed by cholesterol measurement alone, taking the age- and sex-specific 95th percentile as the diagnostic criterion. In FH patients the CAD risk was 8.5 relative to unaffected family members, whereas FDB patients had a 2.7-fold higher risk of CAD than unaffected relatives. FDB patients, free from clinical selection bias, do show lower total and LDL-cholesterol levels and lower CAD risk compared with FH heterozygotes. However, FDB patients are still exposed to a substantially higher CAD risk compared with unaffected relatives.     

家族性高胆固醇血症基因突变及临床表型研究

目的 筛查家族性高胆同醇血症家系载脂蛋白(Apo)B100基因及低密度脂蛋白受体(LDLR)基因突变,并探讨其临床表现.方法 采用PCR扩增ApoB100基因包含3500、3501、3531和3480位点的序列;扩增LDLR启动子和全部18个外显子片段,产物电泳鉴定后直接序列分析,结果 与GenBank公布的基因正常序列比对,找出突变.结果 该家系LDLR基因第10外显子的第1581位碱基发生G＞A突变,导致G496E突变;未检出ApoB100基因突变.结论 此突变为一新突变,为该家系致病性突变.

Abstract：

Objective To investigate the low density lipoprotein receptor (LDLR)gene and apolipoprotein (Apo) B gene mutation in a Chinese family with familial hypercholesterolemia(FH) and give the kindrids clinical check-ups. Methods After physical examination, the kindreds underwent ECG and ultrasound checks. Blood samples were tested for lipid profiles. The promoter and all eighteen exons of LDLR gene were investigated by using PCR and agarose gel electrophoresis in combination with DNA sequence analysis. The results were compared with the normal sequences in GenBank and FH database ( www. ucl. ac. uk/fh ) to find mutations. In addition, the apolipoprotein B100 gene for known mutations (R3500Q,R3531C,R3501W and R3480W)that cause familial defective ApoB100 (FDB)was also tested using the same method. Results A novel homozygous G ＞ A mutation at the 1581 bp of exon 10 was detected in the proband and his siblings. It caused a substitution of amimo acid Glu to Gly at codon 496. A novel heterozygous G ＞A mutation at the 1581 bp of exon 10 was detected in his parents. No mutations of R3500Q,R3531C,R3501W and R3480W of ApoB100 were observed. ECGs were normal. Atherosclerosis were found in all family members by ultrasound checks. Conclusions The homozygous G ＞ A mutation at the 1581 bp of exon 10 was first determined in our country. The change of amino acid Glu to Gly is responsible for FH of the family. The type of the gene mutation was not found in the FH database( www. ucl.ac. uk/ih). It's a new type of LDLR mutation.     

Fh-Souassi: a founder frameshift mutation in exon 10 of the LDL-receptor gene, associated with a mild phenotype in Tunisian families

Familial hypercholesterolemia (FH) has a higher prevalence in central Tunisia together with a milder clinical expression than in western countries. The molecular basis of FH in Tunisia remains unknown. Our aim was to identify FH-causing mutations in three unrelated families (21 subjects) from the area of Souassi (central Tunisia). In probands with a presentation of homozygous FH, the promoter and 18 exons of the low density lipoprotein (LDL)-receptor gene were sequenced in both orientations. A novel complex frameshift mutation was identified in exon 10, nucleotides 1477-1479 (TCT) at Serine 472 were replaced by an insertion of seven nucleotides (AGAGACA), producing a premature termination codon 43 amino acids downstream. Binding of 125I-labelled LDL at 4 degrees C to cultured fibroblasts from two probands showed <2% normal LDL-receptor activity. AvaII digestion of PCR amplified genomic DNA identified this unique mutation in all families; homozygotes n=11, heterozygotes n=10. All mutation carriers shared the same haplotype (7 RFLPs), suggesting that they had a common ancestor. Despite high plasma LDL levels (m=16.0+/-3.0 mmol/l) and extravascular cholesterol deposits, most homozygotes were diagnosed after puberty and had a delayed onset of cardiovascular complications. Moreover, most heterozygotes were free of clinical signs and had plasma LDL cholesterol in the normal range (4.7+/-1.3 mmol/l) without taking any lipid-lowering medication. This mild clinical phenotype which contrasted with the severity of the mutation, could not be explained by specific apolipoprotein E or lipoprotein lipase alleles.