The detection of beta-globin gene mutations in beta-thalassemia using oligonucleotide probes and amplified DNA

DNA amplification combined with the use of synthetic oligonucleotide probes has become an important tool in the identification of base substitutions. We report the use of this DNA amplification technique for the detection of mutations in beta-thalassemia. A series of oligonucleotide primers are synthesized which span the beta-globin gene; one primer is complementary to the coding strand and the other to the non-coding strand. The primers are chosen so that there is little homology with other DNA segments, especially the delta gene. Each set of primers spans an area of the gene between 100 and 300 bp, while the suspected mutation point is located between these two primers. With the use of such a primer set, the beta-globin gene region is amplified by denaturation, annealing and DNA synthesis. The amplification cycle is repeated 25-30 times, using the Klenow fragment of DNA polymerase I. The resulting amplified DNA is hybridized with normal and synthetic deoxynucleotide probes using a standard dot-blot method. We have designed a set of primers and experimental conditions which should prove useful to diagnostic centers for detection of numerous beta-thalassemia mutations.     

A novel ochre mutation in the beta-thalassemia gene of a Thai. Identification by direct cloning of the entire beta-globin gene amplified using polymerase chain reactions

The beta-globin genes from a Thai patient compound heterozygous for beta-thalassemia and HbE disease were investigated. The 3.0-kilobase fragment containing the entire beta-globin gene was amplified by polymerase chain reaction, using Taq DNA polymerase followed by direct cloning of the amplified product into plasmid DNA. Sequence analysis of the thalassemia gene revealed only one base change, a C-A transversion within codon for an amino acid 35. This new mutation creates a premature terminator, TAA, an ochre codon, and results in a beta 0-thalassemia phenotype. The same result was obtained when this mutation was analyzed using a conventional cloning technique, direct sequencing of the amplified product, and hybridization with allele-specific oligonucleotide probes. No misincorporation was detected in the sequence analysis of the 3.0-kilobase insert of five clones of the amplified products obtained from genomic DNA of a normal individual. This approach is a rapid and accurate method for molecular cloning of the beta-globin gene and also other genes, the partial nucleotide sequences of which are known.     

The molecular basis of beta-thalassemia in Thailand: application to prenatal diagnosis.

To enable the prenatal diagnosis of beta-thalassemia by direct detection of the mutant beta-globin genes, we have determined the spectrum of mutations causing this disease in Thailand. The techniques employed included a combination of synthetic oligonucleotide probe hybridization, direct sequencing of genomic DNA enzymatically amplified by the polymerase chain reaction, and cloning and sequencing of the beta-globin genes. A total of 116 beta-thalassemia genes from 78 Hb E/beta-thalassemia patients and from 19 homozygous beta-thalassemia patients were analyzed, and the mutation was characterized in 112/116 (97%) of them. Eleven mutations were found, of which four (-CTTT in codon 41/42, AAG----TAG in codon 17, C----T in position 654 of the IVS-2 region, and A----G in position -28 upstream of the beta-globin gene) accounted for 83%; two previously undescribed mutations have been identified. The spectrum of beta-thalassemia mutations is similar to that reported among the Chinese. However, within the Thai population itself, patients with homozygous beta-thalassemia show a wider spread of mutations in comparison with the Hb E/beta-thalassemia group, in whom the frameshift 41/42 mutation predominates at a frequency of 62%. This difference in distribution may reflect the difference in ethnic origin of the two groups. Characterization of these mutations should aid the planning of a prenatal diagnosis program for beta-thalassemia in Thailand.     

Characterization of a spontaneous mutation to a beta-thalassemia allele.

We have studied a nuclear family containing a single child with severe beta-thalassemia intermedia, a Greek-Cypriot mother with hematological findings of beta-thalassemia trait, and a Polish father who is hematologically normal. Since both the child and her father were heterozygous for a DNA polymorphism within the beta-globin gene, it was possible to clone and sequence the beta-globin gene identical by descent from both the child and her father. A nonsense mutation in codon 121 (GAA----TAA) was found in the beta-globin gene of the child, while the same gene from her father lacked this mutation and was normal. This mutation has not been previously observed among over 200 beta-thalassemia genes characterized in Caucasians. Since the mutation eliminates an EcoRI site in the beta-globin gene, we could show that the mutation is not present in genomic DNA of the father. To rule out germinal mosaicism, sperm DNA of the father was also digested with EcoRI, and the mutant EcoRI fragment was not observed under conditions that would detect the mutation if it were present in at least 2% of sperm cells. Routine HLA and blood group testing supported stated paternity. In addition, studies with 17 DNA probes that detect multiple allele polymorphisms increased the probability of stated paternity to at least 10(8):1. These data provide evidence that the G----T change in codon 121 of the beta-globin gene in the child is the result of a spontaneous mutation that occurred during spermatogenesis in a paternal germ cell.     

Beta-thalassemia due to a T----A mutation within the ATA box

Sequence analyses of amplified DNA from a Yugoslavian patient with Hb Lepore-beta-thalassemia and from his father with a simple beta-thalassemia trait have revealed a T----A mutation within the ATA box at a position 30 base pairs upstream from the Cap site. The nucleotide substitution was confirmed through dot-blot analysis of amplified DNA with specific 32P-labeled synthetic oligonucleotide probes. The patient had a clinically severe condition; his Hb Lepore-beta-thalassemia was of the beta + type, as about 8-10% of the non-alpha chain was normal beta A. The same T----A mutation at nucleotide -30 was present on both chromosomes of a young Turkish patient who suffered from a thalassemia intermedia with a low level of Hb F (13.1%) and a relatively high beta A chain synthesis. These data are similar to those obtained for other types of beta +-thalassemia caused by comparable substitutions at positions 31, 29, and 28 base pairs upstream from the Cap site of the beta-globin gene.     

Determination of the spectrum of beta-thalassemia genes in Spain by use of dot-blot analysis of amplified beta-globin DNA.

We have delineated the molecular lesions causing beta-thalassemia in Spain, a country that has witnessed the passage of different Mediterranean populations over the centuries, in order to evaluate the extent of heterogeneity of these mutations and to make possible simplified prenatal diagnosis of the disorder in that country. The use of the polymerase chain-reaction (PCR) technique to preferentially amplify beta-globin DNA sequences that contain the most frequent beta-thalassemia mutations in Mediterraneans enabled us to rapidly analyze 58 beta-thalassemia alleles in a dot-blot format either by hybridization with allele-specific radiolabeled oligonucleotide probes or by direct sequence analysis of the amplification product. The Spanish population carries seven different beta-thalassemia mutations; the nonsense codon 39 is predominant (64%), whereas the IVS1 position 110 mutation, the most common cause of beta-thalassemia in the eastern part of the Mediterranean basin, is underrepresented (8.5%). The IVS1 mutation at position 6 accounts for 15% of the defects and leads to a more severe form of beta+-thalassemia than originally described in most of the patients we studied. In this study, we demonstrate further the usefulness of the dot-blot hybridization of PCR-amplified genomic DNA in both rapid population surveys and prenatal diagnosis of beta-thalassemia.     

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.     

Identification of five rare mutations including a novel frameshift mutation causing beta zero-thalassemia in Thai patients with beta zero-thalassemia/hemoglobin E disease.

6 out of 14 uncharacterized beta-thalassemia alleles from 187 Thai beta-thalassemia/HbE patients were identified by direct sequencing of DNA amplified by polymerase chain reaction. A novel mutation occurring from an insertion of adenosine in codon 95, which results in a shift of the reading frame with terminator at the new codon 101, was detected in one patient. In addition, two frameshift mutations not previously reported among the Thai population were also detected in 3 patients: one with a deletion of thymidine in codon 15 and two with an insertion of cytidine in codons 27/28. A frameshift mutation that occurred from a cytidine deletion in codon 41 was also found in one patient in this study. The remaining case was an amber mutation, GAG-TAG, in codon 43 in exon 2 of the beta-globin gene. These mutations bring the number of mutations known to be present in the Thai population to a total of 20, 15 of which were detected in beta-thalassemia/HbE patients.     

Molecular nature of beta-thalassemia in Tajikistan: a four base pair deletion in codons 41-42 of the beta-globin gene]

Thirty tajiks, whose relatives had beta-thalassemia traits (revealed in previous investigations by determination of the HbA-2 and HbF levels) were selected to screen beta-thalassemia mutations. DNA samples from each individual were subjected to the PCR (polymerase chain reaction) to amplify the 635 bp beta-globin gene fragment. One additional band was detected in three samples after the amplified fragment underwent electrophoresis in 2% agarose gel and the EtBr was stained, and two additional ones were revealed by 6% PAAGE and staining of the EtBr. All additional bands migrated more slowly than appropriate 635 bp fragment. It is supposed that additional bands are heteroduplexes formed from the wild type chains and mutated chains carrying a deletion or insertion. The 4 bp deletion of the 41-42 (-tctt) was detected after the direct sequencing of the amplified fragments. This mutation is common among Chinese but it was not revealed in the Middle Asia populations. The mutation can be easily screened using the PCR and electrophoresis in 2% agarose gel or PAAG of the amplified beta-globin gene fragments.     

A humanized mouse model for a common beta0-thalassemia mutation

Accurate animal models that recapitulate the phenotype and genotype of patients with beta-thalassemia would enable the development of a range of possible therapeutic approaches. Here we report the generation of a mouse model carrying the codons 41-42 (-TTCT) beta-thalassemia mutation in the intact human beta-globin locus. This mutation accounts for approximately 40% of beta-thalassemia mutations in southern China and Thailand. We demonstrate a low level of production of gamma-globins from the mutant locus in day 18 embryos, as well as production of mutant human beta-globin mRNA. However, in contrast to transgenic mice carrying the normal human beta-globin locus, 4-bp deletion mice fail to show any phenotypic complementation of the knockout mutation of both murine beta-globin genes. Our studies suggest that this is a valuable model for gene correction in hemopoietic stem cells and for studying the effects of HbF inducers in vivo in a "humanized" thalassemic environment.     

beta-Thalassemia due to a deletion of the nucleotide which is substituted in the beta S-globin gene.

Sickle-cell anemia results from an A leads to T transversion in the second nucleotide of codon 6 of the beta-globin gene. We now report an uncommon beta-thalassemia gene that contains a deletion of this nucleotide. Thus, one mutation (GAG leads to GTG) produces sickle-cell anemia, while the other (GAG leads to GG) eliminates beta-globin production. These data establish that different alterations affecting one specific nucleotide can produce either an abnormal hemoglobin or beta-thalassemia. Moreover, the nucleotide sequence comprising codons 6-8 of the beta-globin gene appears to be particularly susceptible to mutations affecting nucleotide number.     

A new TATA box mutation detected at prenatal diagnosis for beta-thalassemia.

During the course of prenatal diagnosis for beta-thalassemia in Chinese patients, we encountered a mutation that was not detectable by oligonucleotides for the known Chinese mutations. Amplification of the beta-globin gene by the polymerase chain reaction and direct DNA sequencing revealed a previously undescribed -30 TATA box mutation which was carried by the father. Prenatal diagnosis was achieved, and the fetus did not inherit this beta-thalassemia allele.     

Scanning of beta-globin gene for identification of beta-thalassemia mutation in Romanian population

Beta-thalassemia is uncommon (0.5%) in the Romanian population, but it must be considered in the differential diagnosis of hypochromic anemia. The molecular characterization of beta-thalassemia is absolutely necessary for molecular diagnosis, as well as any genetic epidemiological study in this region. Molecular analyses consist of mutation detection by molecular scanning of beta-globin gene. This gene has 3 exons and 2 introns, involved in beta-thalassemic pathogenesis. Clinical application of DNA analysis on beta-thalassemic chromosomes allowed characterization of 29 persons with different beta-thalassemia mutations among 58 patients with anemia. The experimental strategy was based on sequential PCR amplification of most of the beta-globin gene and running on denaturing gradient gel electrophoresis of amplification products. Definitive characterization of mutations in samples identified with shifted DGGE patterns was performed ARMS-PCR and/or PCR-restriction enzyme analysis methods. Eight different beta-thalassemia alleles were identified, the most common being IVS I-110 (G-A) and cd 39 (C-T). Comparison of overall frequency of mutations in the neighboring countries, shows that these results are in the frame of overall distribution of these mutations in Mediterranean area, especially in Greece and in Bulgaria. Molecular diagnosis is useful for differentiating mild from severe alleles, for genetic counseling, as well as for mutation definition in carriers, identified by hematological analysis necessary for prenatal testing and genetic counseling.     

History and origin of beta-thalassemia in Turkey: sequence haplotype diversity of beta-globin genes.

In the present study we report the sequence haplotypes associated with 22 beta-globin gene mutations present in Turkey. Nine nucleotide polymorphisms and an (AT)xTy motif located at the 5' end of the beta-globin gene form the sequence haplotypes that were investigated in 204 unrelated beta-thalassemia and wild-type chromosomes from Turkey. Twelve sequence haplotypes were observed in the chromosomes analyzed and haplotypic heterogeneity was found in the wild-type beta-globin genes. Samples from the Black Sea region demonstrated a remarkable level of haplotypic heterogeneity in contrast to the homogeneity present in Central Anatolian samples. Of the 22 beta-globin mutations analyzed, 18 were related with single sequence haplotypes. This simple association led to the attempt to determine the origin of these mutations by comparing their frequencies in Turkey with those in other countries and/or the world distribution of the haplotypes carrying them. However, the presence of several exceptions for the "one haplotype/one mutation" rule showed that the beta-globin gene cluster is far from static. Each of the IVS-I-110 (G-->A), Cd 39 (C-->T), IVS-I-6 (T-->C), and -30 (T-->A) beta-globin mutations was associated with a minimum of two sequence haplotypes. This fact is best explained by the likelihood of strong recombination mechanisms taking place, rather than by assuming multiple origins for each of these alleles. According to our results, malarial selection for the oldest beta-thalassemia allele in Anatolia (i.e., IVS-I-110 G-->A) may have occurred between 6500 and 2000 B.C. From that date on, most of the common beta-thalassemia mutations in Turkey were established, and by the 13th century A.D. most of them were brought to frequencies close to those observed at present.     

Validation of dHPLC for molecular diagnosis of beta-thalassemia in Southern Italy

Beta-thalassemia, the most common hereditary anemia in the Mediterranean area, results from over 200 causative mutations in the beta-globin locus. The aim of this study was to validate a denaturing high-performance liquid chromatography (dHPLC)-based assay for postnatal and prenatal molecular diagnosis of beta-thalassemia in Southern Italy. Sixty beta-thalassemic patients, affected either by thalassemia intermedia or thalassemia major, were analyzed in a blind study. We also carried out prenatal molecular diagnosis in 12 couples at-risk for having affected offspring. Chorionic villi samples were subjected to dHPLC analysis upon molecular characterization of the parental beta-globin alleles. Direct sequence analysis was used to validate each result, showing an accuracy rate of 100% for dHPLC. Overall, our protocol was able to identify the responsible mutations in all 96 analyzed subjects (including 12 prenatals in at-risk pregnancies), detecting the eight most common mutations in Southern Italy. Three rare mutations (one of which, reported here for the first time) that standard mutation detection methods failed to reveal, were also identified. dHPLC assay proved to be a reliable, rapid, and sensitive method for detecting both common and rare mutations within the beta-globin gene. Because of this property our protocol has the potential to be implemented for mutational screening in different areas of high prevalence for beta-thalassemia.     

A humanized BAC transgenic/knockout mouse model for HbE/beta-thalassemia

Hemoglobin E (HbE) is caused by a G-->A mutation at codon 26 of the beta-globin gene, which substitutes Glu-->Lys. This mutation gives rise to functional but unstable hemoglobin and activates a cryptic splice site causing mild anemia. HbE reaches a carrier frequency of 60-80% in some Southeast Asian populations. HbE causes serious disease when co-inherited with a beta-thalassemia mutation. In this study, we report the creation and evaluation of humanized transgenic mice containing the beta(E) mutation in the context of the human beta-globin locus. Developmental expression of the human beta(E) locus transgene partially complements the hematological abnormalities in heterozygous knockout mice ((mu)beta(th-3/+)) and rescues the embryonic lethality of homozygous knockout mice ((mu)beta(th-3/th-3)). The phenotype of rescued mice was dependent on the transgene copy number. This mouse model displays hematological abnormalities similar to HbE/beta-thalassemia patients and represent an ideal in vivo model system for pathophysiological studies and evaluation of novel therapies.     

Molecular basis of HbE-beta-thalassemia and the origin of HbE in northeast Thailand: identification of one novel mutation using amplified DNA from buffy coat specimens

Amplification of DNA via polymerase chain reaction directly from a small amount of a buffy coat fraction was used to study the molecular basis of HbE-beta-thalassemia in the northeastern Thai population. Eight different mutations including the new one causing a beta o-thalassemia phenotype were detected. This novel mutation is an amber mutation at codon 26, which occurs at the same position as that of HbE; the most common hemoglobin variant in Southeast Asian countries. A pitfall in detection of the HbE mutation by restriction enzyme analysis was pointed out and differential diagnosis of the HbE mutation and the novel one by using allele specific oligonucleotide probes were described. Analysis of polymorphic restriction sites in the beta-globin gene cluster containing the beta E gene revealed two previously undescribed haplotypes in the Southeast Asian populations, which provide evidence for the multiple origins of beta E gene in Southeast Asian populations.     

Molecular analysis of alpha/beta-thalassemia in a southern Chinese population

Thalassemia is endemic to many regions in southern China. The screening of severe determinants of thalassemia is of critical importance in management and control of thalassemia. We designed a protocol based on microarray technology to screen for a spectrum of alpha/beta-globin gene mutations in the Chinese population. A total of 38 probes were capable of screening 98% of alpha/beta-globin gene mutations in the China population, including 16 mutations of beta-globin [beta(41-42)(-TCTT), IVSII-654(C-->T), beta17(A-->T), -28(A-->G), beta(71-72)(+A), beta(71-72)(+T), HbE26(G-->A), -29(A-->G), beta(27-28)(+C), IVSI-1(G-->T), IVSI-5(G-->C), beta(14-15)(+G), IVSII-5(G-->C), beta41(+T), 37(G-->A), and beta43(G-->T)] and five mutations of alpha/beta[three deletions of -alpha;(3.7), -alpha(4.2), and --(SEA); two nondeletions of alpha(Quong Sze) codon alpha125(T-->C) and alpha(Constant Spring) codon alpha142(T-->C)]. Multiplex PCR products were amplified from human genomic DNA and allowed to hybridize with the oligonucleotide array. alpha/beta-Globin genotypes were assigned by quantitative analysis of the hybridization results. The protocol, standardized by analysis of 100 thalassemia samples with known mutations and 13 recombinant plasmids, was 100% reliable in genotyping all mutant alleles. In subsequent screening of 2,030 Chinese with unknown mutations, the protocol was 100% accurate. This method provides unambiguous detection of complex combinations of heterozygous, compound heterozygous, and homozygous alpha/beta-thalassemia genotypes. The protocol was also flexible, detecting globin gene mutations from different population groups.