The nucleotide (nt) variations in the promoter region of the gamma-globin genes, HS-111 and 3'HS1 regions, were studied in Iranian patients with beta-thalassemia intermedia (beta-TI), beta-thalassemia major (beta-TM) and healthy individuals. Of the five nt variations at the 5' end of the (A)gamma-globin gene, -369 (C>G), -611 (-T) and -603/604 (GA>AG) were found in all samples, whereas -588 (A>G) and -AAGC at -222 to -225 were found at different frequencies in the studied groups. Therefore, the -369, -611 and -603/604 variations were considered common mutations in this population, and the difference with respect to the -AAGC deletion was not significant. However, the A allele of the -588 variation and [+] allele of the XmnI polymorphism were more frequent in beta-TI patients, especially those who had the IVS-II-1(G>A)/IVS-II-1(G>A) genotype. The + allele of XmnI also had complete correlation with the A allele of -588 variation. The HS-111 (-21 A) variation also showed association with beta-TI patients who had high levels of Hb F. Bearing in mind that the -588 variation lies within the postulated adult-specific silencer region and that the majority of beta-TI patients had allele A, then it can be envisaged that this allele could have a role in altering the repressor function at this region. Therefore, the A allele of -588, [+] allele of XmnI and HS-111 (-21 A) variation are useful genetic markers to differentiate between beta-TM and beta-TI patients. However, these nt changes alone may not be the only elements raising the level of Hb F, other regulatory and modifying factors also play a role in Hb F production.

Genetic diversity at the human β-globin locus has been implicated as a modifier of sickle cell anaemia (SCA) severity. However, haplotypes defined by restriction fragment length polymorphism sites across the β-globin locus have not been consistently associated with clinical phenotypes. To define the genetic structure at the β-globin locus more thoroughly, we performed high-density single nucleotide polymorphism (SNP) mapping in 820 children who were homozygous for the sickle cell mutation (HbSS). Genotyping results revealed very high linkage disequilibrium across a large region spanning the locus control region and the HBB (β-globin gene) cluster. We identified three predominant haplotypes accounting for 96% of the β(S) -carrying chromosomes in this population that could be distinguished using a minimal set of common SNPs. Consistent with previous studies, fetal haemoglobin level was significantly associated with β(S) -haplotypes. After controlling for covariates, an association was detected between haplotype and rate of hospitalization for acute chest syndrome (ACS) (incidence rate ratio 0·51, 95% confidence interval 0·29-0·89) but not incidence rate of vaso-occlusive pain or presence of silent cerebral infarct (SCI). Our results suggest that these SNP-defined β(S) -haplotypes may be associated with ACS, but not pain or SCI in a study population of children with SCA.