BackgroundHepcidin plays a key role in body iron metabolism by preventing the release of iron from macrophages and intestinal cells. Defective hepcidin synthesis causes iron loading, while overproduction results in defective reticuloendothelial iron release and iron absorption.
In mammals, X-linked gene products can be dosage compensated between males and females by inactivation of one of the two X chromosomes in the developing female embryos. X inactivation choice is usually random in embryo mammals, but several mechanisms can influence the choice determining skewed X inactivation. As a consequence, females heterozygous for X-linked recessive disease can manifest the full phenotype. Herein, we report a family with extremely skewed X inactivation that produced the full phenotype of Lowe syndrome, a recessive X-linked disease, in a female. The X chromosome inactivation studies detected an extremely skewed inactivation pattern with a ratio of 100:0 in the propositus as well as in five out of seven unaffected female relatives in four generations. The OCRL1 ''de novo'' mutation resides in the active paternally inherited X chromosome. X chromosome haplotype analysis suggests the presence of a locus for the familial skewed X inactivation in chromosome Xq25 most likely controlling X chromosome choice in X inactivation or cell proliferation. The description of this case adds Lowe syndrome to the list of X-linked disorders which may manifest the full phenotype in females because of the skewed X inactivation.
Objectives: In this paper we describe the outline and results of a 7-year screening programme for thalassaemias and glucose-6-phosphate dehydrogenase (G6PD) deficiency in 13- to 14-year-old students from the Sardinian population. Method: This programme had several steps: formal education on thalassaemia, request of informed consent by parents, blood testing and genetic counselling. Results:Out of 63,285 subjects tested, 6,521 (10.3%) were heterozygotes for β-thalassaemia, 16,175 (25.6%) for α-thalassaemia and 101 were carriers of a haemoglobin variant. One thousand four hundred and twenty (16.4%) males were hemizygotes for G6PD deficiency and 1,893 (20.6%) females were heterozygotes. Conclusion: The uptake of the programme was remarkably high and homogeneous across the island, indicating and confirming a great interest of the Sardinian population in any initiative directed at the prevention of homozygous β-thalassaemia.
There is much evidence that oxygen free radicals (OFR) may be the final mediators of biochemical and molecular damage in many kidney diseases of different etiology (toxic, ischemic and immunologically mediated), involving mainly endothelium, basement membrane and tubular cells, but direct demonstration of a role in inducing mesangiolysis is lacking. An experimental model of renal damage caused by OFR was carried out in 6 rabbits using a mixture of xanthine-oxidase and xanthine, which produces a large amount of the radical superoxide anion. Both enzyme (0.0150 and 0.150 U/ml) and substrate (0.2 and 2 mM) were simultaneously infused in one kidney, while the controlateral kidneys perfused with buffer only were used as controls. Treated kidneys were compared to controls by light and electron microscopy. A further experiment was carried out in 4 other rabbits to evaluate the protection afforded by superoxide dismutase, the specific enzyme-scavenging superoxide anion. Microscopic studies showed dose-related ingravescent damage in the treated kidneys: capillary enlargement, subendothelial swelling, detachment of the endothelium from the basement membrane, mesangiolysis and microaneurysms. Control kidneys appeared to be normal. No significant differences were observed in the kidneys treated with addition of superoxide dismutase. These results are the first direct demonstration of a role of superoxide anion in the induction of mesangiolysis in rabbits. The lack of a protective effect by superoxide dismutase could mean that the superoxide anion triggers a chain of other OFR, further responsible for damage.
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