Comorbidity in the Tunisian population.

Genetic diseases in the Tunisian population represent a real problem of public health as their spectrum encompasses more than 400 disorders. Their frequency and distribution in the country have been influenced by demographic, economic and social features especially consanguinity. In this article, we report on genetic disease association referred to as comorbidity and discuss factors influencing their expressivity. Seventy-five disease associations have been reported among Tunisian families. This comorbidity could be individual or familial. In 39 comorbid associations, consanguinity was noted. Twenty-one founder and 11 private mutations are the cause of 34 primary diseases and 13 of associated diseases. As the information dealing with this phenomenon is fragmented, we proposed to centralize it in this report in order to draw both clinicians' and researcher's attention on the occurrence of such disease associations in inbred populations as it makes genetic counseling and prenatal diagnosis challenging even when mutations are known.

Biotinidase deficiency: novel mutations in Algerian patients.

Biotinidase deficiency is an autosomal recessive disorder of biotin metabolism leading to varying degrees of neurologic and cutaneous symptoms when untreated. In the present study, we report the clinical features and the molecular investigation of biotinidase deficiency in four unrelated consanguineous Algerian families including five patients with profound biotinidase deficiency and one child characterized as partial biotinidase deficiency. Mutation analysis revealed three novel mutations, c.del631C and c.1557T>G within exon 4 and c.324-325insTA in exon 3. Since newborn screening is not available in Algeria, cascade screening in affected families would be very helpful to identify at risk individuals.

The experience of a Tunisian referral centre in prenatal diagnosis of Xeroderma pigmentosum.

AIMS: Xeroderma pigmentosum (XP, OMIM 278700-278780) is one of the most severe genodermatoses and is relatively frequent in Tunisia. In the absence of any therapy and to better manage the disease, we aimed to develop a molecular tool for DNA-based prenatal diagnosis. METHODS: Six consanguineous Tunisian XP families (4 XP-A and 2 XP-C) have benefited from a prenatal diagnosis. Screening for mutations was performed by direct sequencing, while maternal-foetal contamination was checked by genotyping. RESULTS: Among the 7 prenatal diagnoses, 4 foetuses were heterozygous for the screened mutation. Exclusion of contamination by maternal cells was checked. Mutations were detected at a homozygous state in the remaining cases, and the parents decided to terminate pregnancy. CONCLUSION: Our study illustrates the implementation of prenatal diagnosis for better health support of XP in Tunisia.

Severe phenotypes in two Tunisian families with novel XPA mutations: evidence for a correlation between mutation location and disease severity.

Xeroderma pigmentosum (XP) is a rare disorder characterized by a high skin sun-sensitivity predisposing to skin cancers at an early age. Among Tunisian XP patients with an intermediate skin phenotype, 92% presented neurological abnormalities related to XPA gene deficiency. Clinical variability of the XP-A phenotype is associated with a mutational heterogeneity. In the present study, two Tunisian families with severe dermatological and neurological XP phenotypes were investigated in order to determine clinical characteristics and genetic basis. Two Tunisian families with four XP affected children were examined in the Dermatology Department. Clinical features showed severe presentation of the disease. Coding regions of the XPA gene were analysed by direct sequencing. Results showed the presence of a novel mutation, p.E111X, in three patients belonging to the same family and presenting a very severe phenotype i.e. development of skin lesions and neurological signs before 1 year age. For the other patient, we identified a nonsense mutation, p.R207X, already identified in a Palestinian XP-A patient. Identification of novel causing mutations in Tunisian XP-A patients shows the genetic and mutational heterogeneity of the disease in Tunisia. Despite a relatively homogenous mutational spectrum, mutational heterogeneity for rare cases is observed because of the high rate of consanguinity.

Identification of a primarily neurological phenotypic expression of xeroderma pigmentosum complementation group A in a Tunisian family.

Xeroderma pigmentosum (XP) is a rare genodermatosis predisposing to skin cancers. The disease is classified into eight groups. Among them, XP group A (XP-A) is characterized by the presence of neurological abnormalities in addition to cutaneous symptoms. In the present study, we report a particular family with XP-A in which some members showed an atypical clinical presentation, i.e. unexplained neurological abnormalities with discrete skin manifestations. Molecular investigation allowed identification of a novel XPA mutation and complete phenotype-genotype correlation for this new phenotypic expression of XP-A.

High frequency of the V548A fs X572 XPC mutation in Tunisia: implication for molecular diagnosis.

Xeroderma pigmentosum (XP, OMIM 278700-278780) is a group of autosomal recessive diseases characterized by hypersensitivity to UV rays. There are seven complementation groups of XP (XPA to XPG) and XPV. Among them, the XP group C (XP-C) is the most prevalent type in Western Europe and in the United States. We report here on the clinical and genetic investigation of XP-C patients in 14 Tunisian families. As the XPC V548A fs X572 mutation has been identified in Algerian and Moroccan populations, Tunisian patients were first screened for this mutation by a direct sequencing of exon 9 of the XPC gene. All patients with a severe clinical form had this mutation, thus showing the homogeneity of the mutational spectrum of XPC in Tunisia. A potential founder effect was searched and confirmed by haplotype analysis. Taking into account the similarity of the genetic background, we propose a direct screening of this mutation as a rapid and cost-effective tool for the diagnosis of XP-C in North Africa.