Zohra Rahmani

Molecular mapping of twenty-four features of Down syndrome on chromosome 21.

To determine which regions of chromosome 21 are involved in the pathogenesis of specific features of Down syndrome, we analysed, phenotypically and molecularly, 10 patients with partial trisomy 21. Six minimal regions for 24 features were defined by genotype-phenotype correlations. Nineteen of these features could be assigned to just 2 regions: short stature, joint hyperlaxity, hypotonia, major contribution to mental retardation and 9 anomalies of the face, hand and foot to the region D21S55, or Down syndrome chromosome region (DCR), located on q22.2 or very proximal q22.3, and spanning 0.4–3 Mb; 6 facial and dermatoglyphic anomalies to the region D21S55-MX1, including the DCR and spanning a maximum of 6 Mb on q22.2 and part of q22.3. Thus, the complex phenotype that constitutes Down syndrome may in large part simply result from the overdosage of only one or a few genes within the DCR and/or region D21S55-MX1.

Hepatitis B Virus X Protein Colocalizes to Mitochondria with a Human Voltage-Dependent Anion Channel, HVDAC3, and Alters Its Transmembrane Potential

ABSTRACT Understanding the mechanism(s) of action of the hepatitis B virus (HBV)-encoded protein HBx is fundamental to elucidating the underlying mechanisms of chronic liver disease and hepatocellular carcinoma caused by HBV infection. In our continued attempts to identify cellular targets of HBx, we have previously reported the identification of a novel cellular protein with the aid of a yeast two-hybrid assay. This cellular gene was identified as a third member of the family of human genes that encode the voltage-dependent anion channel (HVDAC3). In the present study, physical interaction between HBx and HVDAC3 was established by standard in vitro and in vivo methods. Confocal laser microscopy of transfected cells with respective expression vectors colocalized HVDAC3 and HBx to mitochondria. This novel, heretofore unreported subcellular distribution of HBx in mitochondria implies a functional role of HBx in functions associated with mitochondria. Using a stable cationic fluorophore dye, CMXRos, we show that HBx expression in cultured human hepatoma cells leads to alteration of mitochondrial transmembrane potential. Such functional roles of HBx in affecting mitochondrial physiology have implications for HBV-induced liver injury and the development of hepatocellular carcinoma.

Mapping of the down syndrome phenotype on chromosome 21 at the molecular level

Phenotypic and molecular analysis of individuals with partial trisomy 21 can be used to determine which regions of chromosome 21 are involved in the pathogenesis of specific features of Downs Syndrome. Using dosage analysis of 27 sequences we defined, at the molecular level, the extent of the chromosome 21 duplication in ten individuals with partial trisomy 21. Phenotype-genotype correlations led to the definition of minimal regions, the duplications of which are linked to the expression of 23 clinical features of Downs Syndrome. The D21S55 region or Downs Syndrome Chromosome Region 1 (DCR1) (1/20 of the long arm), on 21q22.2-21q22.3 proximal, is involved in four cardinal features of the disease: mental retardation, growth retardation, muscular hypotonia and joint hyperlaxity, and in eight of the 18 more common morphological anomalies of the face, hands and feet. Overlapping the DCR1, the D21S55-MX1 region or DCR2 (1/10 of the long arm), spanning 21q21.2 down to the 1/4th proximal part of 21q22.3, is involved in the features defined by the DCR1 plus congenital heart defect and five additional morphological anomalies. Thus, our results indicate that duplication of a relatively small region of chromosome 21 plays a critical role in the pathogenesis of the Downs phenotype.

Isolation of a novel human voltage-dependent anion channel gene

The voltage-dependent anion channel of the mitochondrial outer membrane (VDAC) is a small, abundant pore-forming protein found in the outer membranes of all eukaryotic mitochondria. The VDAC protein is believed to control the movement of adenine nucleotides through the outer membrane and to be the mitochondrial binding site for hexokinase and glycerol kinase. Two human VDAC cDNAs (HVDAC1 and HVDAC2) have been previously isolated and mapped on chromosome X and 21, respectively. Here, we report the isolation of a novel third human VDAC cDNA, corresponding to the mouse MVDAC3 gene. The expression of this gene in various tissues and its chromosomal localization by polymerase chain reaction (PCR) using a human/rodent somatic cell mapping panel and by fluorescence in situ hybridization is also presented.

Overexpression of mSim2 gene in the zona limitans of the diencephalon of segmental trisomy 16 Ts1Cje fetuses, a mouse model for trisomy 21: a novel whole-mount based RNA hybridization study.

Trisomy 21 (Down syndrome) is the most common chromosomal abnormality associated with mental retardation in humans. Sim2, a human homologue of Drosophila sim gene, which acts as a master regulator of the early development of the fly central nervous system midline, is located on chromosome 21, in the Down syndrome critical region, and might therefore be involved in the pathogenesis of some of the morphological features and brain anomalies observed in Down syndrome. We report here the detailed expression pattern of murine mSim2 gene in Ts1Cje mice fetuses, a segmental trisomy 16 mouse model for trisomy 21, and its overexpression in the zona limitans of the diencephalon using a new quantitative method based on the whole-mount RNA hybridization technique.

Superoxide Dismutase, Oxygen Radical Metabolism, and Amyotrophic Lateral Sclerosis

Publisher Summary This chapter provides an overview of superoxide dismutase (SOD1), oxygen radical metabolism, and amyotrophic lateral sclerosis. Amyotrophic lateral sclerosis (ALS) belongs to a common subtype of the motor neuron diseases, which are a heterogeneous group of disorders that produce muscle weakness and atrophy by their effects on the anterior horn cells of the spinal cord. The most important immediate and obvious implication of the finding of various SOD1 mutations in familiar ALS (FALS) patients is its potential therapeutic benefit. If toxicity caused by oxygen-free radicals is the primary pathogenic mechanism for motor neuron death in FALS and perhaps sporadic ALS, diminishing this toxicity might stop or retard the course of this disease. Clinical trials with either SOD itself or compounds that penetrate the central nervous system and decrease levels of free radicals should be feasible. Such drugs are currently being tested for treatment of Parkinsonism. In a more general sense, this finding is strong, perhaps compelling, evidence in favor of a very significant role for ROS and perhaps other radicals in degenerative processes associated with human aging and in diseases associated with aging. Conversely, a study of the molecular biology of the mutated forms of SODl should reveal a fundamental understanding of how protein structure and function are interrelated.

Partial physical map of human chromosome 21 from fibroblast and lymphocyte DNA

A partial physical map of the human chromosome 21 including 26 genes and anonymous sequences was established by pulsed-field gel electrophoresis analysis of restriction fragments obtained from lymphocyte and fibroblast DNAs. The sizes of the restriction fragments obtained by total digestion with eight different enzymes were compared in these two tissues. Differences resulting from the variations in the methylation state of the restriction sites were frequently observed. These differences and partial digestions were used to estimate the order and the distances between genes and sequences. Six linkage groups were defined: D21S13-D21S16, D21S1-D21S11, D21S65-D21S17, (D21S55,ERG)-ETS2, BCEI-D21S19-D21S42-D21S113-CBS-CRYA1, and COL6A2-S100B. For six intergenic distances the resolution of previous maps was significantly increased.

Gene-dosage mapping of 30 DNA markers on chromosome 21.

Using a slot-blot method for the dosage of single-copy sequences, the copy numbers of 30 chromosome 21 markers were assessed in the blood DNA of 11 patients with partial trisomy or monosomy 21 and in the DNA of a patient-derived human-hamster hybrid cell line carrying a microduplication of chromosome 21. The physical order of these markers on chromosome 21 was thereby determined.

New chromosome 21 DNA markers isolated by pulsed field gel electrophoresis from an ETS2-containing down syndrome chromosomal region

To generate new chromosome 21 markers in a region that is critical for the pathogenesis of Down syndrome (D21S55-MX1), we used pulsed field gel electrophoresis (PFGE) to isolate a 600-kb NruI DNA fragment from the WA17 hybrid cell line, which has retained chromosome 21 as the only human material. This fragment, which contains the oncogene ETS2, was used to construct a partial genomic library. Among the 14 unique sequences that were isolated, 3 were polymorphic markers and contained sequences that are conserved in mammals. Five of these markers mapped on the ETS2-containing NruI fragment and allowed us to define an 800-kb high-resolution PFGE map.