Biochemical and Molecular Aspects of β-Thalassemia Types in Northern Sardinia

Forty-three patients with β-thalassemia from Northern Sardinia (31 severe and polytransfused, six follow-up babies, five adults with mild thalassemia who were not transfusion dependent, and a young transfused patient was also affected by a disease of intermediate severity) were studied in order to establish the fetal hemoglobin composition, restriction fragment 1ength polymorphisin haplotypes at the β-globin gene cluster, and the type(s) of mutation. Haplotype II was prevalent, [56/86 chromosomes (65%)], haplotype I was also fairly common, [22/86 chromosomes (25%)], while other types were relatively rare. The nonsense mutation at codon 39 was nearly exclusive, [76/80 chromosomes (95%)]. Other β-thalassemia mutations occurred on chromosomes with haplotypes 111, IX, X, and perhaps V, and a new type related to II. The mutated A_γT gene was associated with type type II, X, and the new type. Type IX was linked to a βd` gene and to an Xmn I site 5′ to the G<sub>γ</sub> gene, to a high G<sub>γ</sub> globin level, and to a disease of mild severity. Type I11 was associated with a β<sup>+</sup>+-thalassemic gene. The d`39 mutation linked to type I1 was associated with thalassemia intermedia in three patients.     

Haplotypes and levels of fetal hemoglobin and G gamma to A gamma ratios in Mediterranean patients with thalassemia minor and major

This study concerned the gamma chain composition of Hb F and the haplotypes of 44 patients with beta-thalassemia major or intermedia and many of their relatives. Seventeen patients came from Northern (Turkish) Cyprus, 12 from the Istanbul area, and 15 from Macedonia and Bulgaria. Analysis of the A gamma T-G gamma-A gamma I ratio was made by HPLC, while haplotyping involved seven restriction sites. Specific haplotypes were present in certain populations; haplotype I [1] is the dominant type among North Cypriot thalassemia patients. Numerous types were seen in the patients from the Balkan countries. A direct relationship between the A gamma to G gamma ratios and the haplotypes, which exists among black beta-thalassemia heterozygotes [3], was also observed among these Mediterranean patients, although such analyses were considerably complicated by extensive blood transfusion therapy. Haplotypes without the Hinc II restriction site within the psi beta gene were associated with lower G gamma values than those that had this polymorphic site. The A gamma T chain was observed in a small number of beta-thalassemia homozygotes and heterozygotes. Three thalassemia chromosomes with slightly different haplotypes and one normal chromosome with a related haplotype were associated with the gamma 75 Ile----Thr substitution. A few patients with a thalassemia intermedia were heterozygotes for beta-thalassemia with either haplotypes V or VII [1] while the "nonthalassemic" chromosome had a haplotype I, which is the most common "beta-thalassemic" haplotype among the Mediterranean population(s). Detailed analyses of this chromosome have not been completed.     

Molecular analysis of beta zero-thalassemia intermedia in Sardinia

In this study we have carried out alpha- and beta-globin gene analysis and defined the beta-globin gene polymorphisms in a group of patients with thalassemia intermedia of Sardinian descent. A group of patients (109) with thalassemia major of the same origin served as control. Characterization of the beta-thalassemia mutation showed either a frameshift mutation at codon 6 or a codon 39 nonsense mutation. We found that homozygotes for the frameshift mutation at codon 6 or compound heterozygotes for this mutation and for the codon 39 nonsense mutation develop thalassemia intermedia more frequently than thalassemia major. The frameshift mutation at codon 6 was associated with haplotype IX that contains the C-T change at position -158 5' to the G gamma globin gene implicated in high gamma chain production and thus the mild phenotype. In patients' homozygotes for codon 39 nonsense mutation, those with thalassemia intermedia more frequently had the two- gene deletion form of alpha-thalassemia, or functional loss of the alpha 2 gene as compared with those with thalassemia major. In a few siblings with thalassemia major and intermedia, the thalassemia intermedia syndrome correlated with the presence of the -alpha/-alpha genotype. No cause for the mild phenotype was detected in the majority of patients who had not inherited either haplotype IX or alpha- thalassemia.     

Molecular basis of beta-thalassemia intermedia in a southern Italian region (Puglia).

We investigated the molecular bases for a mild phenotype by alpha-, beta- and gamma-globin gene analyses in 22 patients with transfusion-independent thalassemia intermedia (15) or a late-presenting form of thalassemia major (7) originating from Puglia, a region of southern Italy. Twenty-two patients with thalassemia major served as controls. The beta+ IVS-I nt 6 of the beta-globin gene and the C----T substitution at position -158 5' of the G gamma-globin gene were detected more frequently in patients with thalassemia intermedia or late-presenting thalassemia major considered together as compared to those affected by typical transfusion-dependent thalassemia major. Three of 15 patients with thalassemia intermedia had the triple alpha-globin gene arrangement in the heterozygous (2) or homozygous state (1) in association with heterozygous beta zero-thalassemia. From these results, we may conclude that the inheritance of a mild beta-thalassemia allele such as the beta+ IVS-I nt 6 mutation, in the homozygous or heterozygous state, the coinheritance with homozygous beta zero-thalassemia of the -158 (C----T) G gamma gene promoter mutation and the presence of heterozygous beta-thalassemia/triple alpha-globin gene arrangement are the most common reasons accounting for the development of attenuated forms of beta-thalassemia in Puglia.     

Genetic epidemiology of β-thalassemia in sicily: Do sequences 5′ to the Gγ gene and 5′ to the β gene interact to enhance HbF expression in β-thalassemia?

The present epidemiological study of the molecular characteristics of beta-thalassemia in Sicily was prompted by the disparate phenotypic expression (in clinical status and absolute HbF level) observed in two beta-thalassemic homozygotes who were also homozygous for the beta-like globin gene cluster haplotype III. We suspected that polymorphisms within haplotype III could be the cause for the discrepancy. Based on the association of particular conformations of the (AT)xT(y) motif (-540 5' to the beta gene) with milder forms of thalassemia and sickle cell anemia, 38 homozygous beta-thalassemia patients were studied to define their haplotypes, the -158 site 5' to the G gamma gene (linked to haplotype III) and the structure of the (AT)xT(y) motif. We found that the patient who was phenotypically mild and homozygous for beta-thalassemia, haplotype III, and the -158 C----T mutation was homozygous for the rare (AT)9T5 motif. In contrast, the patient homozygous for beta-thalassemia, haplotype III, and the -158 mutation, but exhibiting a severe clinical course, was homozygous for the (AT)7T7 configuration. Others have suggested that (AT)9T5 is a negative regulatory protein binding sequence, and it is a silent carrier state for beta-thalassemia. The usual configuration (AT)7T7, has considerably less affinity for regulatory protein binding, and it is the most common configuration in Sicilian beta-thalassemics (67 of the 78 chromosomes studied). Within the 38 patients studied, seven were informative because they had various combinations of the (AT)9T5 and (AT)7T7 motif, and the -158 C----T mutation. The results in these patients suggest that only the co-presence of the (AT)9T5 configuration and a C----T change at -158 5' to the G gamma gene is associated with high HbF expression and a mild clinical phenotype. We postulate that these two regions of the beta-like globin gene cluster interact, when endowed with the proper sequences, to enhance the expression of HbF secondary to anemia.     

Molecular analysis of beta-thalassemia in South Vietnam

In Vietnam, the carrier rate for beta-thalassemia varies from 1.5% to 25% depending on the ethnic groups of the population. The molecular basis of beta-thalassemia in South Vietnam was studied in 50 unrelated beta-thalassemia patients. Of these, 31 had beta-thalassemia/Hb E, 18 were homozygous for beta-thalassemia, and 1 carried the beta-thalassemia trait. The majority of the patients were Kinh, four were Chinese, and two were Kinh-Chinese. All had severe anemia and received blood transfusions regularly, every 1-3 months. Hepatosplenomegaly was found in all patients, and splenectomy had been done in six patients. Normal alpha-globin genotype (alpha alpha/alpha alpha) was found in all subjects. Reverse dot-blot hybridization using oligonucleotide probes specific for Southeast Asian mutations can detect beta-thalassemia in 60 chromosomes in addition to 31 chromosomes with beta(E) mutation. Excluding the beta(E) gene, six previously reported Thai and Chinese beta-thalassemia mutations were found, including codons 41/42 (-TCTT) 35.3%, codon 17 (A-->T) 25.0%, -28 (A-->G) 7.3%, codons 71/72 (+A) 7.3%, IVS-II nt 654 (C-->T) 7.3%, and IVS-I nt 1 (G-->T) 6.0%. The Vietnamese frameshift mutation at codon 95 (+A) was detected by ARMS in seven chromosomes (10.3%). DNA polymorphism of the beta-globin gene cluster carrying the codon 95 mutation was - + - - - - - + for (G)gamma/XmnI, epsilon/HincII, (G)gamma/HindIII, (A)gamma/HindIII, psi beta/HincII, 3' psi beta/HincII, beta/AvaII, and 3'beta/BamHI, respectively. The remaining mutation detected by the gap PCR was a large deletion known as the Chinese (G)gamma((A)gamma delta beta)(0)-thalassemia. The two most common mutations were the frameshift at codons 41/42 (-TCTT) and the nonsense mutation in codon 17 (A-->T). Thus beta-thalassemia mutations in South Vietnam is similar to the previous report from the North, although at different frequencies. This result will help to establish a center for prenatal diagnosis and for prevention and control of thalassemia in Vietnam.     

Homozygous beta-thalassemia without anemia

A 37-year-old man of Guyanese origin was found to have homozygous beta-thalassemia without anemia. There were no physical stigmata of thalassemia. The hematocrit value was 41 to 45.8, the mean corpuscular volume was 61 fL, and the mean corpuscular hemoglobin was 18.9 pg. The HbF was 45% with a G gamma:A gamma ratio of 3:1. An acid elution preparation of the peripheral blood showed heterogeneous distribution of HbF, but all erythrocytes stained for fetal hemoglobin. The beta/alpha synthesis ratio in the peripheral blood was 0.25; the (beta + gamma)/alpha ratio was 0.55. Haplotype analysis revealed homozygosity for the -+-+ + + + pattern (Senegal, type IX) at seven polymorphic restriction sites within the beta-like gene complex. Digestion of DNA with Xmnl indicated that the -158 C-to-T transition was present in both beta-globin gene clusters. Oligomer hybridization analysis demonstrated homozygosity for the -29 A-to-G mutation in the beta-globin promoter region. Although this form of thalassemia can cause transfusion-requiring anemia, the high-HbF, high-G gamma phenotype associated with the linked +-+ + subhaplotype and -158 C-to-T substitution appears to have ameliorated the disease in this subject.     

Molecular characterization of Hb S(C) beta-thalassemia in American blacks

An extension of previous reports describing the molecular defects and hematological abnormalities in black patients with Hb S(C) beta-thalassemia living in the Southeastern United States is presented. As many as 58 patients with Hb S-beta(+)-thalassemia, 16 with Hb C-beta(+)-thalassemia and 12 with Hb S-beta(0) -thalassemia have been studied. Patients with Hb S(C) beta(+)-thalassemia type 2 (high Hb A values) were most common; the thalassemia was due to mutations in the promoter of the beta-globin gene [-88 (C----T) and -29 (A----G)] or at the polyadenylation signal (T----C). Two patients with lower Hb A values (type 1) carried a mutation in the first intron of the beta-globin gene (IVS-1-5: G----T). The simultaneous presence of an alpha-thalassemia -2(-alpha/) resulted in some modifications of the hematological parameters, but had a minimal effect on the clinical condition. Patients with Hb S-beta (0) thalassemia had lower hemoglobin values, lower number of red blood cells, and lower MCHC values and suffered more frequently from complications than the patients with Hb S-beta(+)-thalassemia. A total of 17 different beta-thalassemia mutations were observed in 128 chromosomes; two mild beta(+)-thalassemia mutations [-88(C----T) and -29(A----G)] account for more than 80% of the thalassemic chromosomes.     

Clinical and genetic heterogeneity in black patients with homozygous beta-thalassemia from the southeastern United States

The presence of various substitutions and deletions resulting in beta-thalassemia was studied in 19 black patients with homozygous beta-thalassemia and in numerous relatives; all patients were from Georgia, South Carolina, and Alabama. Methodology included gene mapping, amplification of genomic DNA with Taq polymerase, identification of known nucleotide substitutions or a single nucleotide deletion through hybridization with synthetic oligonucleotides, cloning and sequencing of a beta-globin gene, and sequencing of amplified genomic DNA. Of the 38 chromosomes tested, 21 (55%) had the A----G substitution at nt -29, eight (21%) had the C----T substitution at nt -88, three (8%) had the substitution at codon 24, while one each of the following abnormalities were also detected: frameshift at codon 6, a C----A mutation at nt 848 of the beta IVS-II (new), an A----T mutation at codon 61 (new), a deletion of 1.35 kilobases including the 5' end of beta, a Ggamma(Agamma delta beta)(0)-thalassemia, and one thalassemia determinant that remained unidentified. The C----A mutation at nt 848 of IVS-II occurred at a position 3 nucleotides 5' to the third exon, adjacent to the invariant AG dinucleotide of the acceptor sequence. The A----T mutation in codon 61 (AAG----TAG) resulted in the creation of a stop codon and thus in beta(0)-thalassemia. The various mutations occurred on chromosomes with different haplotypes; however, chromosomes with a specific mutation but with different haplotypes belonged to one specific framework, which suggested that crossovers were responsible for these different types. Hemoglobin (Hb) F levels were generally high (55% to 75% with 98.5% in one patient with beta(0)/beta(0)); a few patients with specific haplotypes and an alpha-thalassemia-2 heterozygosity had a lower Hb F level. The Ggamma in the Hb F was consistently high when the C----T mutation occurred at nt -158 to the Cap site of the Ggamma-globin gene; seven patients with +/+ at this site had an average Ggamma of 73.8%, eight patients with +/- had 64.8%, and one patient with -/- had 34.2%. Variations in hematologic values and in Hb F, Ggamma, and Hb A2 levels of relatives with a beta-thalassemia heterozygosity depended to some extent on the types of mutations or deletions and on the haplotypes of the chromosomes with the beta-thalassemia determinant.     

Fetal hemoglobin heterogeneity in Brazilian newborns and beta-thalassemia homozygotes

The gamma chain composition of HbF in 37 beta-thalassemia homozygotes and 85 unselected newborn babies from Brazil was studied by high performance liquid chromatography (HPLC). The G gamma value of 59.5 +/- 7.5% (mean +/- SD) obtained for the beta-thalassemia homozygotes was significantly lower than the newborn value of 71.2 +/- 4.2%. The A gamma T gene frequency was 0.159 for the newborns and 0.454 for the thalassemia homozygotes. The A gamma T gene occurred both in chromosomes bearing the beta(0)-thalassemia gene and those with the beta(+)-thalassemia gene.     

Beta-thalassemia, HB S-beta-thalassemia and sickle cell anemia among Tunisians

We analyzed the mutations present in 19 patients with beta-thalassemia major, in 11 patients with Hb S-beta-thalassemia, and the beta S haplotypes of 34 patients with sickle cell anemia. The study included 84 relatives. Dot-blot analysis of amplified DNA with various specific oligonucleotide probes identified 11 different known beta-thalassemia mutations and frameshifts; a new frameshift at codons 25/26 (+T) was detected through sequencing of amplified DNA. The common beta-thalassemia mutations at codon 39 (C----T) and at IVS-I-110 (G----A) were also most prevalent among the Tunisian patients, while the milder T----C mutation at IVS-I-6 was not found. All mutations cause a beta 0-thalassemia or a severe beta + -thalassemia [T----A at -30; IVS-I-5 (G----A); IVS-I-110 (G----A)] which explains the need for regular blood transfusions in the thalassemia major and S-beta-thalassemia patients. Nearly all sickle cell anemia patients carried the beta S mutation on a chromosome with haplotype 19 (or Benin) and all had severe anemia with sickling complications. Identification of the beta S haplotype was through dot-blot analysis with oligonucleotide probes that detect mutations in the G gamma and A gamma promoter sequences, specific for this haplotype.     

The effect of the beta thalassemia mutation on the clinical severity of the sickle beta thalassemia syndrome

In this study, we have defined the beta thalassemia mutation and characterized the beta globin haplotype and the alpha globin gene arrangement in a group of patients of Sicilian descent with beta (s)/beta thalassemia. We found that those patients carrying a beta(+) thalassemia mutation associated with a moderate reduction of beta chain synthesis (beta(+) IVS-1 nt 6) have normal or reduced Hb levels and mild to moderate clinical manifestations, as defined by the number of hospital admission and sickle cell crises per year. Those patients carrying a beta(+) thalassemia mutation associated with a severe reduction of beta chain synthesis (beta(+) IVS-1 nt 110) have a disease of moderate severity. In those carrying a beta(0) thalassemia gene the disease was clinically very heterogeneous, ranging in severity from mild to severe with no difference related to the type of mutation [beta(0) 39, beta(0) IVS-1 nt 1, beta(0) IVS-2 nt 1, beta(0) 6 (-1bp)]. In this last group of patients part of the clinical variability may be attributed to the HbF levels, which were higher in those with mild to moderate clinical severity.     

beta-Thalassemia in American Blacks: novel mutations in the "TATA" box and an acceptor splice site.

beta-Thalassemia genes, although often mild in their effects, are common among American Blacks. We have begun a systematic molecular analysis of beta-thalassemia mutations in this group. DNA polymorphisms in the beta-globin gene cluster were examined among 22 beta-thalassemia chromosomes. Six different haplotypes were observed. beta-globin genes of two of these were cloned, and their phenotypes were examined both in heterologous cells upon transient expression and in vivo. The gene found in the most common haplotype (9 of 22 chromosomes) contained a single base substitution (A----G) at position -29 within the highly conserved proximal promoter element (the "TATA" box). This mutant gene directed beta-globin RNA at 25% of normal levels both in heterologous cells and in vivo. It was associated with a mild beta +-thalassemia phenotype. A different gene, isolated from an apparently rare haplotype (1 of 22 chromosomes), had a single base substitution (A----G) within the acceptor splice site of the second intervening sequence. This mutation abolished normal RNA splicing so that the only RNA made from the gene in vitro was an alternatively spliced RNA, which could not encode beta-globin. The mild deficit in beta-globin production attributable to the -29 A----G mutant allele most likely accounts for the frequently mild nature of beta-thalassemia among American Blacks.     

Molecular characterization of beta-thalassemia intermedia in patients of Italian descent and identification of three novel beta-thalassemia mutations

In this study, we have defined by dot-blot analysis with allelic specific oligonucleotide probes or direct sequencing on amplified DNA the beta-thalassemia mutations in a large group of patients (23) of Italian descent with thalassemia intermedia. These patients had one parent with either the silent beta-thalassemia carrier phenotype or borderline-normal hemoglobin A2 (HbA2) levels (2.5% to 3.5%). Nearly all were genetic compounds for a severe beta-thalassemia mutation and a beta-thalassemia mutation associated with high residual output of beta-globin chains (beta + intervening sequence [IVS]-I-nt6, beta -87, beta -101), indicating that inheritance of a mild beta-thalassemia allele, even in a single dose, is the most common molecular mechanism producing thalassemia intermedia in the Italian population. In three cases, in whom we failed to define by dot-blot analysis the mutations, we sequenced the beta + globin gene and found three novel beta-thalassemia mutations, which are certainly very rare because they have been hitherto detected solely in a single patient. These mutations consist of: (1) a T-A substitution at position 2 of IVS-I, in a patient compound heterozygote for this mutation and the -87 promoter mutation; (2) a G-C substitution at position 844 of IVS-II, in a patient heterozygous for this mutation who showed normal sequences at the in trans beta-globin gene (The reason for the presence of clinical manifestations in a beta-thalassemia heterozygote has not been defined.); and (3) a deletion of one nucleotide (-T) at codon 126, resulting in a frameshift and readthrough of the 5' untranslated region and most likely producing an elongated Hb molecule of 156 amino acid residues, in a patient heterozygous for this mutation with normal beta-globin gene sequences at the other locus.     

Thai G gamma (A gamma delta beta)zero-thalassemia and its interaction with a single gamma-globin gene on a chromosome carrying beta zero-thalassemia

Clinical manifestations and hematologic data of thalassemia intermedia were observed in three siblings of a Thai family. Analyses of the hemoglobin of their parents and other siblings indicated that they inherited a delta beta-thalassemia gene from the father and a beta zero thalassemia gene from the mother. Globin gene mapping confirmed that they carry two abnormal beta-globin gene complexes. On one chromosome more than 70 kb of DNA was removed which resulted in G gamma (A gamma delta beta)zero-thalassemia. The deletion started at the Hind III site located just 3' to the G gamma gene, and extended downstream to a region recognized by the p3'N 2.8R probe which is located more than 45 kb from the 3' end of the beta gene. The other chromosome carried a beta zero thalassemia gene, and a 5 kb deletion between the G gamma and A gamma genes which produced a hybrid -GA gamma- gene. A synthetic oligonucleotide probe showed that this beta zero thalassemia arose from a C----T mutation at position 654 of IVS-II in the beta-globin gene.     

The beta-globin gene on the Chinese delta beta-thalassemia chromosome carries a promoter mutation

A new type of delta beta-thalassemia characterized by decreased expression of the beta-globin gene and increased expression of both G gamma and A gamma globin gene in the absence of a detectable deletion has recently been described in the Chinese population. In this study we characterize the mutant beta-globin gene from this delta beta- thalassemia chromosome. An A to G transversion is identified in the "ATA" sequence of the promoter region that leads to decreased expression of the beta-globin gene in vivo and in vitro. We also demonstrate the presence of this mutation in every individual with a high fetal hemoglobin phenotype in this family and its absence in every individual with a normal hemoglobin phenotype. This same promoter mutation has recently been detected in Chinese beta-thalassemia genes where it is present on chromosomes of the same haplotype as that of the delta beta-thalassemia chromosome we are studying. These data support the hypothesis that an as yet unidentified mutation occurred on the ancestral chromosome carrying the promoter mutation and subsequently gave rise to the delta beta-thalassemia phenotype.     

Thalassemia intermedia due to a novel mutation in the second intervening sequence of the beta-globin gene

We describe a new beta-thalassemia (thal) mutation in the beta-globin gene of an 8-year-old Moroccan boy. This homozygous mutation produces a phenotype of thalassemia intermedia and is associated with the Mediterranean haplotype IX. We discuss the pathophysiological consequences of this mutation which is located near the 3' end of the second intervening sequence (IVS-II) of the beta-globin gene.     

A novel basis for delta beta-thalassemia in a Chinese family

We have studied a Chinese family in which beta-thalassemia and delta beta-thalassemia were found in simple and compound heterozygous states. The delta beta-thalassemia heterozygote (the mother) had 22.3% hemoglobin F, of which 40% was G gamma and 60% A gamma; globin chain studies showed an alpha/beta + gamma ratio of 1.36. The compound heterozygote for delta beta-thalassemia and beta-thalassemia (the child) had the clinical picture of thalassemia intermedia and an alpha/beta + gamma ratio of 4.44. Gene mapping studies were performed using DNA from the affected child. Seventy kilobases of DNA in the beta- globin gene cluster starting upstream from the epsilon-globin gene and ending downstream from the beta-globin gene were mapped, and no detectable deletions or rearrangements were detected. In addition, heterozygosity was detected at multiple polymorphic restriction sites in and 3' to the beta-globin gene, which excludes the possibility of a deletion of the entire beta-globin gene cluster. This is the first example of a nondeletion delta beta-thalassemia associated with increased expression of both G gamma and A gamma genes.     

The Xmn I site (-158, C----T) 5' to the G gamma gene: correlation with the Senegalese haplotype and G gamma globin expression.

There are three major African haplotypes associated with the sickle mutation: Benin (#19), Senegalese (#3), and Central African Republic (#20). Previous studies have suggested that the Xmn I site (-158 bp 5' to the G gamma gene) is associated with elevated levels of G gamma and with the Senegalese haplotype, while other investigators questioned this association. In order to clarify the issue, we have determined beta haplotypes, tested for the presence of the Xmn I site, and measured Hb F and G gamma expression levels in 143 American Black patients with sickle cell anemia. Haplotypes were determined using eight polymorphic sites in the beta-like globin gene cluster: Hinc II 5' to epsilon, Hind III in IVS-II G gamma and A gamma, Hinc II within and 3' to psi beta, Ava II in IVS-II of beta, and Hpa I and Bam HI 3' to beta. The G gamma /A gamma ratio was analyzed by high performance liquid chromatography using a C18 column. The Xmn I site was present in all 31 chromosomes with the Sengalese haplotype. Of the remaining 255 chromosomes with other haplotypes, only 2 (0.8%) had the Xmn I site present. There was significant correlation between the presence of the Xmn I site and increased G gamma /A gamma ratio in a dose-dependent manner. The Hb F level was not significantly increased in the presence of the Xmn I site. The data indicate that the Xmn I site maintains a G gamma /A gamma ratio typical of fetal life but does not necessarily cause elevation of Hb F. The latter seems to depend on factors other than the Xmn I site.     

Homozygous beta zero-39 mutation with thalassemia intermedia in northern Sardinia: clinical, hematological and molecular analysis

In this study, we investigated the clinical and hematological features and carried out alpha- and beta-globin gene analyses in 11 Sardinian adult beta zero-thalassemia homozygotes from Northern Sardinia who were not transfusion-dependent. Oligonucleotide analysis revealed in nine out of 11 patients the nonsense mutation at codon 39, which was associated either with haplotype II or IX (14/16 and 2/16 chromosomes, respectively). Haplotype II was linked to the A gamma T mutation. The G gamma globin level ranged from 50 to 70%. Four out of nine patients (44%) were heterozygous and 3/9 (33%) homozygous for the rightward deletional type of alpha-thalassemia; two (22%) had the normal alpha-gene complement. Patients who were alpha-thalassemia homozygotes (-alpha/-alpha) showed a more balanced globin chain synthesis ratio. This study confirms that alpha-thalassemia may ameliorate the clinical picture of homozygous beta zero-thalassemia.