Molecular analysis of patients of Sardinian descent with Crigler-Najjar syndrome type I.

This study reports the molecular characterisation of the bilirubin UDP-glucuronosyl-transferase gene (UGT1) in a group of patients of Sardinian descent with Crigler-Najjar syndrome type I and their relatives. Sequence analysis of both UGT1A exon 1 and common exons 2-5 was performed in all patients, leading to the detection of AF170 and a novel mutation (470insT), both residing in UGT1A exon 1. All but two heterozygotes for the AF170 mutation showed normal serum bilirubin levels. These two subjects were also heterozygous for the sequence variation A(TA)7TAA in the promoter region of the UGT1A gene.

A promoter mutation, C-->T at position -92, leading to silent beta-thalassaemia.

This study describes the clinical phenotype of the C-->T mutation at position -92 of the beta-globin gene. Excluding two cases with HbA2 levels within the range of the beta-thalassemia carrier state, heterozygotes for this mutation showed normal or borderline red blood cells count, Hb levels, MCV, MCH and HbA2 values, and unbalanced globin chain synthesis. Compound heterozygotes for the -92 C-->T mutation and a beta zero-thalassaemia mutation (beta zero 39) (two cases) or severe beta+-thalassaemia (beta+ IVSII nt 745) (two cases) developed thalassaemia intermedia. According to these characteristics, the -92 promoter mutation should be added to the list of silent beta-thalassaemias.

A simple electrophoretic procedure for fetal diagnosis of beta-thalassaemia due to short deletions.

This study describes three couples at risk for homozygous beta-thalassaemia in which one of the partners carried a short deletion beta-thalassaemia defect. Detection of short deletions in trophoblast DNA was accomplished by the very simple procedure of non-denaturing polyacrylamide gel electrophoresis. This method may be applied to detect beta-thalassaemia mutations due to deletion or addition of more than two nucleotides.

Molecular screening and fetal diagnosis of beta-thalassemia in the Italian population.

This paper reports our experience of molecular screening and fetal diagnosis of beta-thalassemia in 457 at risk couples of Italian descent. Molecular screening was carried out by dot blot analysis on amplified DNA with oligonucleotide probes complementary to the eight most common mutations in Italians [beta zero 39 (C----T); beta zero 6 (-A); beta+ -87 (C----G); beta+ IVSI nt 110 (G----A); beta zero IVSI nt 1 (G----A); beta+ IVSI nt 6 (T----C); beta zero IVSII nt 1 (G----A); beta+ IVSII nt 745 (C----G)]. By using this approach, we have been able to define the mutation in 92.8% of cases. The rest (all but four) were defined by direct sequencing and this led to the detection of nine rare mutations [beta zero 76 (-C); beta+ IVSI nt 5 (G----A); beta+ IVSI nt 5 (G----C); beta+ IVSI -1 (cod 30) (G----C); beta+ -87 (C----T), beta zero -290 bp del.; beta+ -101 (C----T)], and to the characterization of a novel mutation consisting of the deletion of the G at the invariant AG of the IVSII splice acceptor site of the beta-globin gene (beta IVSII nt 850 -1 bp). In the remaining four cases, the beta-globin gene showed entirely normal sequences and the beta-globin gene cluster was intact, as indicated by Southern blot analysis. Fetal diagnosis was carried out by dot blot analysis with the oligonucleotide probes defined in the parents. The procedure is simple and reliable, and the results can be obtained within 1 week of sampling. No misdiagnosis has so far occurred. The results indicate that fetal diagnosis of beta-thalassemia by DNA analysis may be obtained in practically all cases (even in a population showing marked heterogeneity of beta-thalassemia) by the combination of dot blot analysis for detecting common mutations, and direct sequencing for defining those that are uncommon.

Promoter mutations producing mild beta-thalassaemia in the Italian population.

In this study we have investigated the molecular basis for a mild form of beta-thalassaemia in three patients of Italian descent. In two, belonging to different families and affected by a mild and late-presenting form of thalassaemia major, direct sequencing of amplified DNA detected a C----T substitution at position -87 of the beta-globin gene in the compound heterozygous state either with codon 39 nonsense mutation or beta +IVSI, nt 110 mutation. The -87 (C----T) mutation has been previously described, in combination with the beta +IVSI, nt 110 mutation, in a single patient with thalassaemia intermedia. Both our patients showed a more severe phenotype as compared to that resulting from compound heterozygosity for a severe beta-thalassaemia mutation and another promoter mutation (-87, C----G) at the same position. In the third patient with the thalassaemia intermedia phenotype, we detected a novel promoter mutation, consisting in a C----A substitution at position -86, in combination with the codon 39 nonsense mutation. The results of this study indicate that different nucleotide substitutions affecting the proximal CACCC box of the beta-globin gene in combination with severe beta-thalassaemia, produce a mild form of thalassaemia ranging in severity from thalassaemia intermedia to late-presenting thalassaemia major.

Molecular characterization of beta-thalassemia in the Sardinian population.

This study reports the molecular characterization of beta-thalassemia in the Sardinian population. Three thousand beta-thalassemia chromosomes from prospective parents presenting at the genetic service were initially analyzed by dot blot analysis with oligonucleotide probes complementary to the most common beta-thalassemia mutations in the Mediterranean at-risk populations. the mutations which remained uncharacterized by this approach were defined by denaturing gradient gel electrophoresis (DGGE) followed by direct sequence analysis on amplified DNA. We reconfirmed that the predominant mutation in the Sardinian population is the codon 39 nonsense mutation, which accounts for 95.7% of the beta-thalassemia chromosomes. The other two relatively common mutations are frameshifts at codon 6 (2.1%) and at codon 76 (0.7%), relatively uncommon in other Mediterranean-origin populations. In this study we have detected a novel beta-thalassemia mutation, i.e., a frameshift at codon 1, in three beta-thalassemia chromosomes. The DGGE procedure followed by direct sequencing on amplified DNA is a powerful approach for the characterization of unknown mutations in this genetic system. The results herein presented allowed an expansion of the applicability of prenatal diagnosis by DNA analysis, to all couples at risk for beta-thalassemia in our population.