[Severe hyperhomocysteinemia revealing homocystinuria in two young adults with mild phenotype]. / Hyperhomocystéinémie sévère révélant une homocystinurie chez deux jeunes adultes présentant un phénotype peu marqué

INTRODUCTION: To the request of total plasma homocysteine determination in the investigation of vascular disease, diagnosis of homocystinuria in young adult patients with mild phenotype is not so rare. EXEGESIS: A 26-year-old man developed embolic cerebral infarction and a 22-year-old woman presented a right renal venous thrombosis one week after delivery. In each case, high concentration of total plasma homocysteine was first found and plasma and urinary amino acids analysis later on directed the diagnosis towards homocystinuria. Finally, reduced skin fibroblast cystathionine beta-synthase activity confirmed the diagnosis of homocystinuria. CONCLUSION: Total plasma homocysteine determination must be determined for screening for hyperhomocysteinemia in young adults with venous thromboembolism without characteristic phenotypic features of homocystinuria.

Contribution of apolipoprotein(a) size, pentanucleotide TTTTA repeat and C/T(+93) polymorphisms of the apo(a) gene to regulation of lipoprotein(a) plasma levels in a population of young European Caucasians.

Several studies indicate that the inter-individual variation in plasma concentrations of lipoprotein(a) (Lp(a)) is mainly under genetic control. To define the effect of three DNA polymorphisms on apolipoprotein(a) (apo(a)) expression, we have determined plasma Lp(a) concentrations, apo(a) isoform size, KpnI allele size, the TTTTA pentanucleotide repeat number in the 5' control region of the apo(a) gene and the +93 C/T polymorphism in a European Caucasian population. The simultaneous determination of the kringle 4 (K4) number by genotyping and by phenotyping revealed that the size distribution of non-expressed apo(a) alleles was markedly skewed towards alleles with greater than 25 K4 repeats. This is consistent with the inverse relationship frequently described between the kringle 4 number and the plasma Lp(a) level. Apportioning the Lp(a) concentration from the surface of the peaks on apo(a) phenotyping blots, we have observed that the Lp(a) plasma concentration associated with alleles having more than 25 K4 units does not exceed 400 mg/l, whereas the range of Lp(a) concentrations associated with smaller alleles was broad, from 0 to more than 1000 mg/l. It can thus be concluded that the number of K4 repeats is the main determinant of Lp(a) concentration when this number is more than 25, whereas other polymorphisms may be involved in the alleles with fewer than 26 K4. Analyses of the TTTTA repeat number and of the +93 C/T polymorphism were performed in subjects with KpnI alleles of the same length: low Lp(a) concentrations were shown to be preferentially associated with the presence of apo(a) alleles with more than eight pentanucleotide repeats while no association was revealed between Lp(a) plasma levels and the C/T polymorphism. These results demonstrate that the (TTTTA)(n) polymorphism affects the Lp(a) expression independently of apo(a) size polymorphism.

[Apolipoprotein (a) isoform size determination. Value and limits of high resolution phenotyping by agarose gel electrophoresis]. / Détermination de la taille des isoformes de l'apolipoprotéine (a). Intérêts et limites du phénotypage par électrophorèse en gel d'agarose à haute résolution.

High-resolution methods using agarose gel electrophoresis followed by immunoblotting have been recently developed for the measurement of the apolipoprotein (a) size isoforms. Despite the high sensitivity of these methods, a variable proportion of isoforms remain undetected. Four primary antibodies were compared for their ability to detect a large number of isoforms, and were found to express equal reactivity irrespective of the apo (a) size. Comparison of the data obtained both by phenotyping and by genotyping led to the identification of 15 artefactual bands. All these nonspecific bands were of low intensity and occurred when more than 50 ng of Lp (a) were loaded on the gel. The visualization of the isoforms was performed by labelling apo (a) with a peroxidase conjugated antibody coupled to a luminescent substrate, thereby allowing quantification of the relative expression of each isoform by densitometry. There is currently no standardized nomenclature for the apo (a) isoforms: a procedure is proposed using a commercially available standard to express the results in kringle number.

ApoE polymorphism and albuminuria in diabetes mellitus: a role for LDL in the development of nephropathy in NIDDM?

BACKGROUND: Chronic hyperglycaemia stands with diabetes duration as the main predicting factor for the development of nephropathy in insulin dependent diabetes mellitus (IDDM). In contrast, nephropathy in non-insulin-dependent diabetes mellitus (NIDDM) presents with a different natural history and, as well as atherosclerosis, can precede diabetes diagnosis and even the onset of patent hyperglycaemia. The role of lipid abnormalities in this matter remains debated. METHODS: We studied the prevalence of nephropathy (N+ = urinary albumin excretion rate (UAE) > 20 mg/d) in 134 Caucasian NIDDM patients ranked according to alipoprotein E (apoE) genotype (same distribution in 132 controls). Age, diabetes duration and sex ratio did not differ between N+ and N-. A patient with E2E4 (n = 1) was excluded from the analysis. RESULTS: The prevalence of nephropathy was significantly reduced in E2 allele carriers (36%, 8/22) vs 69% (77/111) in E2 non-carriers (P < 0.01). Relative risk (RR) of E2 carriers developing nephropathy was 0.52 (95% CI = 0.35-0.80). Both groups were comparable in terms of age (55 +/- 11 vs 57 +/- 11 years), diabetes duration (15 +/- 9 vs 14 +/- 10 years) and prevalence of retinopathy (59 vs 48%). Similar results were observed when patients with diabetes duration longer than 8 years were studied (n = 94). CONCLUSIONS: It has been largely established that low-density lipoprotein (LDL)-cholesterol level in E2 allele carriers (whether diabetic or not) was lower than in E2 non-carriers. The 2-fold increase of nephropathy in E2 non-carriers with NIDDM argues for a role for LDL in the development of human nephropathy in NIDDM patients. This result is in agreement with previous data established both in vitro and in vivo in animal models. These findings support evidence for the pathogenic and morphologic similarities between kidney disease and atherosclerosis in NIDDM patients.

Evaluation of the genotyping and phenotyping approaches in the investigation of apolipoprotein (a) size polymorphism.

Apoprotein (a) size polymorphism was evaluated at the genotypic and phenotypic level in 110 individuals. Both methods were well correlated with respect to size (r = 0.971), providing that the protein size was expressed as a number of kringle 4 repeats. Despite the fact that the immunoblotting method used was sensitive enough to detect less than 1 ng of lipoprotein (a), 62 samples had single-band phenotypes and one sample had no detectable band, whereas only seven samples had single-band genotypes. The mean size of the alleles coding for the undetected isoforms was significantly larger (141 kb) than for the detected isoforms (123 kb), corroborating the earlier finding of an inverse relationship between the size and the plasma expression level of apoprotein (a). Furthermore, increasing detectability was achieved by loading the gel with different amounts of plasma for each sample. Our results indicate that genotyping is more resolving and more sensitive, but requires a more specialized technology. Phenotyping was carried out using commercially available reagents.

Mechanisms for vagal modulation of ventricular repolarization and of coronary occlusion-induced lethal arrhythmias in cats.

Our goal was to better understand the mechanisms underlying muscarinic receptor actions on the ventricle in vivo. Therefore, we studied the effects of vagal stimulation on ventricular repolarization and of vagal tone on lethal arrhythmias induced by 30 minutes of left anterior descending coronary artery ligation in anesthetized cats. Experimental groups included normal control cats subjected only to coronary ligation and cats pretreated with atropine, pertussis toxin (PTX), or propranolol. All cats received bilateral cervical vagal stimulation (Vstim) at 1, 3, and 5 Hz for 1 minute at 10-minute intervals. Before coronary ligation, Vstim slowed sinus rate, prolonged the PR interval, and lowered blood pressure. Most important from the point of view of electrophysiological function was a vagally induced acceleration of ventricular repolarization in paced and unpaced hearts, which could be explained by the effects of acetylcholine (ie, shortening the subepicardial muscle action potentials). The effect on repolarization was blocked by atropine or PTX but not by propranolol. The extent of sinus slowing and acceleration of repolarization was directly related to the level of functional PTX-sensitive G protein (P < .05). Coronary occlusion was performed during atrial pacing such that the heart rate in all groups was equal. The incidence of ventricular fibrillation (VF) was 10% in the control group and 50% and 54% in atropine and PTX groups, respectively (P < .05). During atrial pacing before coronary occlusion, a vagal index was calculated as percent QTc shortening during Vstim. When the vagal index was 13% to 26%, the incidence of VF during occlusion was zero. When the vagal index was 0% to 12%, VF was 52% (P < .01). Conclusions are as follows: (1) Vstim accelerates ventricular repolarization in cats via a pathway that incorporates a PTX-sensitive G protein and involves an altered gradient between epicardium and endocardium. (2) Removal of vagal tone during ischemia favors VF, as predicted by a vagal index.

[Contribution of molecular biology to the diagnosis of familial hypercholesterolemias in children]. / Apport de la biologie moléculaire au diagnostic des hypercholestérolémies familiales chez l'enfant.

The detection of children at high risk in families with a genetic form of hypercholesterolemia is important for acceptance of prevention under medical control. However, usual lipidic parameters are difficult to interpret during infancy. So we studied by a molecular biology approach 11 families presenting with syndrome of pure hypercholesterolemia where a defect of the LDL receptor (LDL-R) gene was suspected (Familial Hypercholesterolemia: FH IIa). Markers of the LDL-R gene (Restriction Fragment Length Polymorphism RFLP) were studied with intragenic probes. The segregation of the abnormal gene was studied in each family. Our results illustrate the limits of such an approach (its heaviness and the fact that, in 2 families, the analysis was not informative), but also its advantages: indeed, in 8 families, the diagnosis was established (particularly in one case at birth). Moreover in 2 families the LDL-R abnormality was excluded. In such case, as an alternative, the hypothesis of an apo B abnormality was envisaged. This differential diagnosis is interesting since it permits the choice of an adequate treatment.