On how altered glutamate homeostasis may contribute to demyelinating diseases of the CNS.

Glial cells communicate reciprocally with neurons in multiple ways, both in synaptic and non-synaptic regions of the central nervous system. In the latter, neuron to glial and glial to glial signals can be mediated by neurotransmitters. Here, we review the presence and some of the functional properties of glutamate transporters and receptors in oligodendrocytes. In addition, we present data illustrating that alterations in glutamate homeostasis can be excitotoxic to oligodendroglia and that the tissue lesions caused by overactivation of glutamate receptors resemble those observed in demyelinating diseases such as multiple sclerosis. Overall, this information indicates that aberrant glutamate signaling may contribute to the development of some white matter pathologies.

Compound heterozygote for both rare apolipoprotein E1 (Gly127-->Asp, Arg158-->Cys) and E3(Cys112-->Arg, Arg251-->Gly) alleles in a multigeneration pedigree with hyperlipoproteinaemia.

1. A French multigeneration pedigree with hyperlipoproteinaemia was investigated for the transmission of the rare apolipoprotein E1(Gly127-->Asp, Arg158-->Cys) variant. The proband, a 46-year-old male carrying the rare apoE1 variant, presented a severe type III hyperlipoproteinaemia like his three brothers and his sister. 2. ApoE phenotyping and genotyping showed a discrepancy in the second allele carried by the proband's wife and two of her children, thus suggesting another apoE gene mutation. Cloning and sequencing of the entire exon 4 demonstrated a point mutation at codon 251, leading to an apoE3(Cys112-->Arg, Arg251-->Gly) allele. The proband's wife was normolipaemic and heterozygous for this rare isoform and the common apoE3 protein. The rare apoE3(Cys112-->Arg, Arg251-->Gly) allele has been transmitted to her two daughters. The first, aged 19, was normolipaemic and heterozygous for this allele and the common apoE2 allele. The second, carrying both the rare isoforms apoE1(Gly127-->Asp, Arg158-->Cys) and apoE3(Cys112-->Arg, Arg251-->Gly), presented a hypertriglyceridaemia at the age of 10. 3. The exploration of apoE status associated with plasma lipid levels and lipoprotein profiles in this three-generation pedigree made it possible to describe a compound heterozygote for two mutated alleles, one mutation being located in the N-terminal domain of the apoE protein and the other arising in the C-terminal domain.

Genetic polymorphism of apolipoprotein E in Caucasian alcoholic cirrhotics.

Steatosis is the most common although inconstant hepatic lesion induced by chronic alcohol consumption. Alcoholic cirrhosis is found in only 20 to 30% of chronic alcohol misusers, which points to the influence of both environmental and genetic factors. Apolipoprotein E (apo E) presents an important polymorphism with three common alleles, epsilon 4, epsilon 3 and epsilon 2. Its modulation role on triglyceride-rich lipoproteins and cholesterol-containing lipoproteins is linked with its interaction with cellular specific receptors. This work aims at studying a possible correlation between apo E polymorphism and alcoholic cirrhosis. The three common alleles were identified by enzymatic amplification (PCR) of genomic DNA from blood samples and analysis of restriction profiles. The distribution of alleles and genotypes was performed in 35 Caucasian cirrhotic patients (medium age 57 years) and compared with the usual distribution of apo E phenotypes in European Caucasian populations. The results show lower epsilon 4 and epsilon 2 allele frequencies and higher epsilon 3 allele frequency in Caucasian alcoholic cirrhotics.

[Pathology of the human apolipoprotein E gene]. / Pathologie du gène de l'apolipoprotéine E humaine.

Apolipoprotein E (apo E) is a polymorphic glycoprotein that plays an essential part in the binding to receptors for the uptake of chylomicrons and VLDL remnants and of LDL. The three major isoforms are E3 (Cys112/Arg158), E4 (Arg112/Arg158) and E2 (Cys112/Cys158). The apo E genetic variation has a great impact. In most of type III familial hyperlipoproteinemias (HLP), E2 is implicated at the homozygote status. In other cases, rare alleles are directly responsible for dominant type III HLP. Apo E polymorphism is an essential determinant in the interindividual variations of lipids in healthy subjects in various populations. Its influence can be significant on the efficacy of nutritional or therapeutic interventions. The allele epsilon 4 appears to be associated with an increased risk of premature atherosclerosis. Recently, epsilon 4 was demonstrated to be associated with an early Alzheimer's disease onset. Apo E polymorphism contributes to the lipid disorders in diabetes and obesity. The analysis of apo E polymorphism can be carried out with two conceptually different approaches. The first one is based on the separation of plasma isoforms of the protein by isoelectric focusing or bidimensional electrophoresis. The other one consists in the application of molecular biology techniques (PCR and endonuclease restriction profiles) for a detection of the common alleles and of several rare alleles, avoiding the possible errors of the phenotyping technique of the apo E protein. The application of genetic engineering allows a better understanding of the role played by apo E towards its receptors and in other molecular interactions which are not well known up to now.