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.
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.
This study reveals a variation in the excess risk linked to consanguinity according to the type of disorder, suggesting the potential of cryptic population substructure to contribute to disease incidence in populations with complex social structure like Tunisia. It also emphasizes the role of other health and demographic aspects such as mutation frequency and reproductive replacement in diseases etiology.
Our findings showed that the majority of patients carried genotype CT of rs11886868 and genotypes AG and GG of rs4671393 present HbF level < 15%. RR = 0.08, RR = 0.176, and RR = 0.189, respectively. The results showed a significant association between the alleles T of rs11886868 and G of rs4671393 and %HbF < 15% with P = 0.016; RR = 0.39 and P = 8.9 × 10(-3): RR = 0.567, respectively. Interestingly, the C allele of the rs11886868 and the A allele of the rs46713939 were associated with an ameliorated phenotype in patient's SCA. The combination of the genotypes GG and CT explains more phenotypic variance than the sum of the two BCL11A SNPs taken individually.
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