[Homozygous antithrombin type HBS deficiency; a family study]. / Déficit homozygote en antithrombine de type HBS; à propos d'une famille.

Congenital antithrombin (AT) deficiency is the most thrombotic genetic abnormality of haemostasis. Total quantitative deficits are lethal as early as life intra-uterine. Only homozygous mutations concerning the heparin-binding site are compatible with life. We report here the case of an 18 years old patient with recurrent deep venous thrombosis of the inferior members. Haemostasis exploration shows a decreased AT activity (11%) in the presence of heparin while AT progressive activity and AT antigen are normal. Two other homozygous sisters are identified in this family study. Molecular study of AT gene show Arg47-Cys substitution, already reported in the literature with patients of different geographic origins. Treatment of patients with homozygous AT type HBS deficiency is similar that for patients with heterozygous AT deficiency; a continuous prophylactic anticoagulant treatment is always necessary and AT concentrates infusions are required in all situations needing curative heparin treatment.

Genetic and mutational heterogeneity of autosomal recessive chronic granulomatous disease in Tunisia.

NADPH oxidase, a multi-subunit protein consisting of cytosolic components and the membrane-bound heterodimer, plays an instrumental role in host defence mechanisms of phagocytes. Genetic deficiency of the enzymatic complex results in an inherited disorder, chronic granulomatous disease (CGD), which is characterized by an impaired phagocyte microbicidal activity. X-Linked (XL) CGD results from a mutation in the CYBB gene encoding the gp91phox subunit, while autosomal recessive (AR) CGD is associated with mutations in one of the NCF1, NCF2 and CYBA genes that encode the p47phox, p67phox and p22phox subunits, respectively. In the study reported here, we investigated genetic defects underlying CGD in 15 Tunisian patients from 14 unrelated families. Haplotype analyses and homozygosity mapping with microsatellite markers around known CGD genes assigned the genetic defect to NCF1 in four patients, to NCF2 in four patients and to CYBA in two patients. However, one family with two CGD patients seemed not to link the genetic defect to any known AR-CGD genes. Mutation screening identified two novel mutations in NCF2 and CYBA in addition to the recurrent mutation, DeltaGT, in NCF1 and a splice site mutation previously reported in a North African patient. Our results revealed the genetic and mutational heterogeneity of the AR recessive form of CGD in Tunisia.

[Association study between diabetic retinopathy and aldose reductase gene polymorphism in Tunisians]. / Etude de l'association entre la rétinopathie diabétique et un polymorphisme du gène de l'aldose réductase dans la population tunisienne.

INTRODUCTION: Aldose reductase (ALR2), the enzyme of the polyol pathway, may play an important role in the pathogenesis of diabetic microvascular complications, namely diabetic retinopathy. The study aimed to determine whether the aldose reductase gene is involved in diabetic retinopathy in the Tunisian population. MATERIAL: and methods: A case-control study was conducted in 47 type 2 diabetic patients who have diabetic retinopathy and 28 diabetic patients without diabetic retinopathy in spite of diabetes lasting for more than 5 years and over 10 years in 13 cases. We investigated the association between the (CA)n polymorphism located at 2.1 kb upstream of the transcription start site of ALR2 and diabetic retinopathy. The distribution of genotypes and alleles was compared between cases and controls by chi2 test using Epi info software. RESULTS: Genotyping of the two groups did not demonstrate any association between the alleles of this marker and diabetic retinopathy in the Tunisian population studied. DISCUSSION: An association between one of the alleles (Z - 2) of this microsatellite and diabetic retinopathy was identified in Chinese and Japanese patients with type 2 diabetes. Discordant results were obtained for the different populations studied. The lack of an association between diabetic retinopathy and ALR2 alleles indicates that the ALR2 gene is not a genetic marker of predisposition to diabetic retinopathy for type 2 diabetic patients in the Tunisian population studied.