Sickle cell disease presents a great clinical variability that remains largely misunderstood. New disease protective genetic modifiers acting mainly through an increased Hb F level have recently been described. We studied relations between clinical and hematological phenotypes and known sickle cell disease genetic modifiers in patients from Mayotte Island, a remote French territory located in the Indian Ocean. Eighty-two children with sickle cell disease were enrolled; their median age was 5.9 years (range 1-18). Clinical and hematological features of sickle cell disease were retrospectively collected. Genetic studies included determination of β-globin genotypes [Hb SS, Hb S-β(0)-thalassemia (Hb S-β(0)-thal), Hb S-β(+)-thal], β(S)-globin locus haplotype, α-thalassemia (α-thal), and single nucleotide polymorphisms (SNPs) located in quantitative trait loci for Hb F expression (XmnI polymorphism, BCL11A rs4671393 and rs11886868, intergenic region of HBS1L-MYB rs28384513, rs4895441 and rs9399137). Univariate and multivariate analyses were conducted. Twenty-eight percent of the patients had Hb S-β-thal (eight different mutations in 21 patients), 55.0% had the -α(3.7) (rightward) deletion and 88.0% of the homozygous Hb SS patients were carrying a homozygous Bantu haplotype. In the multivariate model, the prognosis role of the SNP BCL11A rs4671393 was confirmed in the studied population showing a significant association with an elevated Hb F level and with a low hospitalization rate. The -α(3.7) deletion, XmnI polymorphism and intergenic region HBS1L-MYB SNPs were not significantly linked to any clinical criteria of severity. This report, the first to describe the main features of children with sickle cell disease on Mayotte Island, highlights the protective effect of the BCL11A polymorphism in this population.
Keywords: BCL11A; HSB1L-MYB intergenic region; Mayotte Island; XmnI polymorphism; sickle cell disease.