The alpha globin genotypes of 55 beta thalassaemia heterozygotes have been determined by restriction endonuclease analysis to identify those with interacting alpha thalassaemia genes. A comparison of the haematological and haemoglobin synthesis findings of individuals with normal alpha genotypes (alpha alpha/alpha alpha) with those with one (-alpha/alpha alpha) or two (-alpha/-alpha) alpha genes deleted shows that the latter two groups have more balanced globin chain synthesis ratios, higher haemoglobin levels, and larger, better haemoglobinized red cells. This suggests that the degree of globin chain imbalance is a significant factor in determining the red cell characteristics in heterozygous beta thalassaemia. Screening programmes for thalassaemia, based on the detection of low MCVs, could miss cases of the interaction of alpha and beta thalassaemia.
We used a restriction endonuclease to analyze the beta-thalassemia gene in Sardinia. When we digested human DNA with the restriction enzyme Bam HI, the beta-globin gene split into a 5' portion contained in a fragment of DNA 1.8 kb in length and a 3' portion in a fragment 9.3 kb in length. In some subjects, a variation in the nucleotide sequence affecting the site recognized by this enzyme on the 3' side of the beta-globin gene resulted in a different fragment, 22 kb in length, which contained the 3' portion of the beta-globin gene. In Sardinians without beta-thalassemia, the frequency of the 9.3-kb fragment was 0.67, and that of the 22-kb fragment was 0.33. In contrast, all the beta 0-thalassemia genes were associated exclusively with the 9.3-kb fragment. Thus, the beta 0-thalassemia lesion in Sardinians apparently arose on a chromosome that had the 9.3-kb Bam HI fragment. This observation can be used in prenatal diagnosis of beta 0-thalassemia in Sardina, since demonstration of the 22.0-kb fragment would indicate the normal beta-globin genotype and exclude the beta 0-thalassemia lesion on that chromosome. (N Engl J Med 302:185-188, 1980).
SUMMARY The frequency of thalassaemia syndromes in Sardinia was examined by a population survey. The data indicate that about 12.6% of the Sardinian subjects are carriers of,B-thalassaemia, while 6.9% of the population carries an -thalassaemia gene, with a slight difference between the various provinces. These are among the highest frequencies of thalassaemia genes found in a Caucasian population today.A survey of hospital inpatients and outpatients showed a newborn incidence of homozygous ,6-thalassaemia of 1 in 300. The reasons for the difference between the expected and observed incidence figures are discussed. Moreover, 3 subjects with 5,f-thalassaemia trait, 6 carriers of heterocellular persistence of fetal haemoglobin (HPFH), 1 sickle cell trait, and 3 subjects with Hb J Sardegna were found.Genetic heterogeneity of fJ-thalassaemia syndromes in this population may generally result from the interaction of a-and fl-thalassaemia genes.The incidence and distribution of thalassaemia syndromes in Sardinia have been previously investigated (Silvestroni and Bianco, 1960;Carcassi, 1963;Siniscalco et al., 1966
In this study, we have correlated the hematological phenotype of 56 Sardinian beta o-thalassemia heterozygotes with their alpha-globin genotype as defined by restriction endonuclease mapping. We found that the coinheritance of the deletion of one alpha-globin and, more obviously, two alpha-globin genes tend to normalize the thalassemia-like hematological phenotype commonly associated with the beta o-thalassemia carrier state. On the other hand, the association of the deletion of three alpha-globin genes caused a more severe phenotype. By globin chain synthesis analysis, those beta o-thalassemia heterozygotes with the (-alpha/alpha alpha) alpha-globin genotype had less deficiency of beta-chain synthesis than did those with the normal alpha-globin genotype (alpha alpha/alpha alpha). In heterozygotes with the (-alpha/-alpha) and in those with the (--/-alpha) alpha-globin genotype the imbalance was actually reversed with a mild or marked alpha-chain synthesis excess respectively.
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