Four Novel Deletions in Globin Genes Revealed by Multiplex Ligation Dependent Probe Amplification Assay (MLPA) Technology.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 1593-1593
Author(s):  
Dvora Filon ◽  
Marion Phylipsen ◽  
Piero C. Giordano ◽  
Deborah G. Rund ◽  
Cornelis L. Harteveld
Keyword(s):  
Genetic Counseling ◽  
Large Deletion ◽  
Beta Thalassemia ◽  
Globin Genes ◽  
Beta Globin ◽  
Ashkenazi Jews ◽  
Large Deletions ◽  
Alpha Globin ◽  
Amplification Assay ◽  
Thalassemia Trait

Abstract For nearly 2 decades, the Hadassah Hospital hematology laboratory has been performing DNA-based diagnosis of thalassemia patients and carriers of alpha and beta thalassemia trait. Despite exhaustive analysis using conventional methods, no mutation or deletion could be identified for several families. Recently, MLPA technology was successfully applied to the diagnosis of deletions of alpha and beta globin genes (Harteveld, 2005). This method uses 2 sets (of 35 and 50 probes) covering 700 kb of alpha-globin and 500 Kb of beta-globin, respectively. In the current study, we applied this technology to the analysis of four additional families. Three are Ashkenazi Jews with suspected thalassemia trait. The fourth is a Persian Jewish patient with HbH disease who was only found to have -α 3.7, with an unknown deletion of two alpha genes on the other chromosome. Hematological data are presented in Table 1. MPLA analysis revealed that three of the propositi (2 of the Ashkenazim and the Persian patient) carried large deletions of the alpha globin locus and the third Ashkenazi family carried a large deletion of the beta globin locus, all of which are previously undescribed. Family C was found to have a deletion encompassing a region upstream of the alpha globin cluster but the alpha-like genes are all present. Family K has a large deletion removing the entire alpha globin cluster. The Persian patient has a large deletion of 2 alpha globin genes. Lastly, Family M, of Ashkenazi origin, carries a large deletion of the beta globin cluster whose 5′ end has not yet been mapped. Notably, this family has no elevation of HbA2 or HbF to indicate that they carry beta-thalassemia trait. We conclude that, while large deletions of the alpha or beta globin cluster are not common, they can present a serious problem in diagnosis, potentially leading to erroneous genetic counseling. Identification of such deletions can allow accurate genetic counseling and prenatal diagnosis in appropriate families. MPLA technology is invaluable in characterizing these types of deletions which escape detection using more conventional techniques. Hematological data of Patients and Families Name, Ethnicity (sex, age) RBC Hb MCV MCH RDW Hb EP Family C, Ashkenazi Family C Mother (34y) 4.0 11.4 87 28.5 14.3 Family C Father (38y) 6.08 13.5 71 22.2 15.7 Family C Child I (F, 8y) 5.51 11.1 63 20.1 14.8 Family C Child II (M, 6y) 5.91 11.9 65 20.1 15.9 Family C Child III (F, 2.5y) 4.11 11.5 84.6 27.7 16.1 Family K, Ashkenazi Family K Propositus (M, 31y) 6.63 14.1 69.4 21.3 14.9 Family MF, Persian Family MF Propositus (M, 37y) 5.51 9.7 56.7 17.5 23.7 HbH 6% Family M (beta thal), Ashkezani Family M Mother (38y) 5.46 10.7 63.9 19.6 14.8 HbA2 2.8% Family M Father (51y) 5.07 13.3 80.3 26.2 13.2 HbA2 2.2% Family M Child I (F, 17y) 4.85 14.2 86.7 29.3 12 HbA2 2.6% Family M Child II (F, 13y) 5.43 10.6 62.3 19.5 14.8 HbA2 2.5% Family M Child III (F, 11y) 4.43 12.2 83.4 27.4 12.7 HbA2 2.4% Family M Child IV (F, 4y) 6.32 11.2 56.7 17.7 16.5 HbA2 2.5%

scholarly journals Molecular analysis of Japanese delta beta-thalassemia

Blood ◽  
1988 ◽  
Vol 72 (5) ◽  
pp. 1771-1776
Author(s):  
S Shiokawa ◽  
H Yamada ◽  
Y Takihara ◽  
E Matsunaga ◽  
Y Ohba ◽  
...  
Keyword(s):  
Mammalian Cells ◽  
Globin Gene ◽  
Fetal Hemoglobin ◽  
Beta Thalassemia ◽  
Globin Genes ◽  
Beta Globin ◽  
Beta Globin Gene ◽  
Gamma Globin ◽  
Large Deletions ◽  
Deletion Junction

A DNA fragment containing the deletion junction region from a Japanese individual with homozygous delta beta-thalassemia has been cloned. A clone containing the normal DNA surrounding the 3′ breakpoint of this deletion and a clone carrying the G gamma- and A gamma-globin genes of this patient were also isolated. Sequences of the deletion junction and both gamma-globin genes were determined. A comparison of these sequences with previously determined sequences of the normal counterparts revealed that the 5′ breakpoint is located between 2,134 and 2,137 base pairs (bp) 3′ to the polyA site of the A gamma-globin gene, the 5′ breakpoint is located just downstream of the 3′ border of the fetal gamma-globin duplication unit, and no molecular defects are evident within the gamma-globin gene region. A comparison between the sequences of the normal DNA surrounding the 3′ breakpoint and the normal DNA surrounding the 5′ breakpoint shows that deletion is the result of a nonhomologous recombination event. There are A+T-rich stretches near the 5′ and 3′ breakpoints in the normal DNA, and a portion of an Aly repeat is located in the region 3′ to the 3′ breakpoint. Southern blot analysis using probes 3′ to the beta-globin gene showed that the deletion extends in the 3′ direction further than any other deletions associated with delta beta-thalassemia and hereditary persistence of fetal hemoglobin (HPFH) heretofore reported. These results are discussed in terms of the mechanism generating large deletions in mammalian cells and three models for the regulation of gamma-globin and beta-globin gene expression in humans.

scholarly journals Molecular analysis of Japanese delta beta-thalassemia

Blood ◽  
1988 ◽  
Vol 72 (5) ◽  
pp. 1771-1776 ◽  
Author(s):  
S Shiokawa ◽  
H Yamada ◽  
Y Takihara ◽  
E Matsunaga ◽  
Y Ohba ◽  
...  
Keyword(s):  
Mammalian Cells ◽  
Globin Gene ◽  
Fetal Hemoglobin ◽  
Beta Thalassemia ◽  
Globin Genes ◽  
Beta Globin ◽  
Beta Globin Gene ◽  
Gamma Globin ◽  
Large Deletions ◽  
Deletion Junction

Abstract A DNA fragment containing the deletion junction region from a Japanese individual with homozygous delta beta-thalassemia has been cloned. A clone containing the normal DNA surrounding the 3′ breakpoint of this deletion and a clone carrying the G gamma- and A gamma-globin genes of this patient were also isolated. Sequences of the deletion junction and both gamma-globin genes were determined. A comparison of these sequences with previously determined sequences of the normal counterparts revealed that the 5′ breakpoint is located between 2,134 and 2,137 base pairs (bp) 3′ to the polyA site of the A gamma-globin gene, the 5′ breakpoint is located just downstream of the 3′ border of the fetal gamma-globin duplication unit, and no molecular defects are evident within the gamma-globin gene region. A comparison between the sequences of the normal DNA surrounding the 3′ breakpoint and the normal DNA surrounding the 5′ breakpoint shows that deletion is the result of a nonhomologous recombination event. There are A+T-rich stretches near the 5′ and 3′ breakpoints in the normal DNA, and a portion of an Aly repeat is located in the region 3′ to the 3′ breakpoint. Southern blot analysis using probes 3′ to the beta-globin gene showed that the deletion extends in the 3′ direction further than any other deletions associated with delta beta-thalassemia and hereditary persistence of fetal hemoglobin (HPFH) heretofore reported. These results are discussed in terms of the mechanism generating large deletions in mammalian cells and three models for the regulation of gamma-globin and beta-globin gene expression in humans.

scholarly journals The 18- to 23-kb deletion of the Macedonian delta beta-thalassemia includes the entire delta and beta globin genes

Blood ◽  
1986 ◽  
Vol 68 (4) ◽  
pp. 971-974
Author(s):  
GD Efremov ◽  
N Nikolov ◽  
Y Hattori ◽  
I Bakioglu ◽  
TH Huisman
Keyword(s):  
Globin Gene ◽  
Fetal Hemoglobin ◽  
Large Deletion ◽  
Beta Thalassemia ◽  
Globin Genes ◽  
Beta Globin ◽  
Gamma Delta ◽  
Beta Globin Gene ◽  
Restriction Sites ◽  
Endonuclease Mapping

Restriction endonuclease mapping analyses were made of DNA from a few members of a Macedonian family with hematological characteristics of delta beta-thalassemia, ie, microcytosis, normal HbA2 levels, and elevated levels of HbF (7% to 14%) with G gamma (average 40.5%) and A gamma T chains (average 59.5%). A large deletion of 18 to 23 kb was present with a 5′ breakpoint within a 670-bp segment of DNA between the HpaI and NcoI restriction sites 5′ to the delta globin gene, and a 3′ breakpoint between the BamHI and HpaI restriction sites located some 9 to 13 kb 3′ to the beta globin gene. This deletion is different from those present in other types of G gamma A gamma(delta beta)zero- thalassemia. The similarity of the hematological expression of these delta beta-thalassemic conditions which have somewhat comparable 5′ breakpoints supports the idea that an important fetal hemoglobin- controlling region lies between the psi beta and delta globin genes.

scholarly journals Usefulness of NGS for Diagnosis of Dominant Beta-Thalassemia and Unstable Hemoglobinopathies in Five Clinical Cases

2021 ◽  
Vol 12 ◽  
Author(s):  
Valeria Rizzuto ◽  
Tamara T. Koopmann ◽  
Adoración Blanco-Álvarez ◽  
Barbara Tazón-Vega ◽  
Amira Idrizovic ◽  
...  
Keyword(s):  
De Novo ◽  
Globin Gene ◽  
Clinical Manifestations ◽  
Beta Thalassemia ◽  
Globin Genes ◽  
Beta Globin ◽  
Alpha Globin ◽  
Abnormal Hemoglobin ◽  
High Index Of Suspicion ◽  
Clinical Cases

Unstable hemoglobinopathies (UHs) are rare anemia disorders (RADs) characterized by abnormal hemoglobin (Hb) variants with decreased stability. UHs are therefore easily precipitating, causing hemolysis and, in some cases, leading to dominant beta-thalassemia (dBTHAL). The clinical picture of UHs is highly heterogeneous, inheritance pattern is dominant, instead of recessive as in more prevalent major Hb syndromes, and may occur de novo. Most cases of UHs are not detected by conventional testing, therefore diagnosis requires a high index of suspicion of the treating physician. Here, we highlight the importance of next generation sequencing (NGS) methodologies for the diagnosis of patients with dBTHAL and other less severe UH variants. We present five unrelated clinical cases referred with chronic hemolytic anemia, three of them with severe blood transfusion dependent anemia. Targeted NGS analysis was performed in three cases while whole exome sequencing (WES) analysis was performed in two cases. Five different UH variants were identified correlating with patients’ clinical manifestations. Four variants were related to the beta-globin gene (Hb Bristol—Alesha, Hb Debrousse, Hb Zunyi, and the novel Hb Mokum) meanwhile one case was caused by a mutation in the alpha-globin gene leading to Hb Evans. Inclusion of alpha and beta-globin genes in routine NGS approaches for RADs has to be considered to improve diagnosis’ efficiency of RAD due to UHs. Reducing misdiagnoses and underdiagnoses of UH variants, especially of the severe forms leading to dBTHAL would also facilitate the early start of intensive or curative treatments for these patients.

Genetic Heterogeneity of Alpha - and Beta - Globin Mutations in a German Multiethnic Population Group

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. 5185-5185
Author(s):  
Regine Grosse ◽  
Florian Oyen ◽  
Belinda Weber ◽  
Reinhard Schneppenheim
Keyword(s):  
Genetic Counseling ◽  
Conflicts Of Interest ◽  
Beta Thalassemia ◽  
Compound Heterozygous ◽  
Beta Globin ◽  
Globin Chain ◽  
Globin Chains ◽  
Hemoglobin C ◽  
Thalassemia Minor ◽  
Alpha Globin

Abstract Abstract 5185 Thalassemia syndromes are among the most common hereditary diseases worldwide and are widespread throughout the Mediterranean Region, Africa, the Middle East, India, Burma, the Southeast Asia and Indonesia. Similarly, hemoglobinopathies are common in different ethnic groups and mixed syndromes of Thalassemia and hemoglobinopathies exist. In this retrospective study we report the number and type of Thalassemia mutations and their combination with hemoglobinopathies detected mostly in individuals with a migration background now living in Germany. DNA samples were analyzed by polymerase chain reaction (PCR) and direct DNA-sequencing and additionally by multiplex ligation-dependent amplification (MRC-HOLLAND MLPA®). Mutations in one or both beta-globin chains were found in 77 patients. Most of these mutations were beta Thalassemia mutations, n=41 (Thalassemia minor n=33, Thalassemia major/intermedia n=7, homozygous Quin-Hai Hemoglobinopathy n=1). In 34 samples we found the hemoglobin S single base mutation c. 20A>T p. E7V, either alone or in combination with a hemoglobin C mutation c. 19G>A p. E7K or beta Thalassemia mutation (HbAS n=14, HbSS n=12, HbSC n=6, HbSThal n=2). In two patients we found only the hemoglobin C mutation by itself (HbAC n=1, HbCC n=1). In 52 samples we found mutations on the alpha-globin chains, most often the 3. 7KB deletion (n=27), followed by the SEA (n=4), the 20. 5 KB deletion (n=4), the 4. 2 KB deletion (n=4), the Dutch deletion (n=3) and alpha triplication (n=3). Two of the remaining seven samples showed new alpha Thalassemia mutations which have not been described yet. In an additional 34 DNA samples we found a combination of alpha- and beta-globin chain changes. In 4 of these samples we detected new mutations in the alpha-globin chains. The prevalence of mutations in the alpha- and beta-globin chains varies greatly because of a complex ethnic structure of our patients. Changes of the alpha-globin chains could not be safely detected by hemoglobin-electrophoresis. These situations are very important for genetic counseling in a population in which consanguineous marriages are common. Furthermore, alpha-globin mutations are genetic modifiers for beta Thalassemia and sickle cell disease and will influence the phenotype of beta-globin chain mutations. Patients with a compound heterozygous mutation for beta Thalassemia will probably not be detected by hemoglobin-electrophoresis alone, as in milder forms and early childhood the hemoglobin is not severely decreased and hemoglobin electrophoresis may be misinterpreted for Thalassemia minor. Our findings underline the heterogeneity of beta-globin and alpha-globin chain mutations and the importance of hematological and molecular analyses in the diagnosis and genetic counseling. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Coexistence of three hemoglobins with different alpha-chains in two unrelated children (with family studies indicating polymorphism in the number of alpha-globin genes in the Sardinian population)

Blood ◽  
1980 ◽  
Vol 55 (6) ◽  
pp. 1025-1032 ◽  
Author(s):  
T Meloni ◽  
G Pilo ◽  
L Camardella ◽  
F Cancedda ◽  
A Lania ◽  
...  
Keyword(s):  
Red Cells ◽  
The Other ◽  
Beta Thalassemia ◽  
Globin Genes ◽  
Alpha Chain ◽  
Sardinian Population ◽  
Alpha Globin ◽  
Hemoglobin Variants ◽  
Thalassemia Trait ◽  
Beta 2

Abstract In each of two families from Sardinia, Italy, we have found segregation for two alpha-chain hemoglobin variants, which we have identified as G Philadelphia [alpha 68 (E17) Asn leads to Lys] and J Sardinia [alpha 50 (CE8) His leads to Asp], respectively. One family also shows segregation for the beta-thalassemia trait. One subject in one family and two subjects in the other family have in their red cells both hemoglobin variants, G and J, in addition to HbA. One of the subjects, a newborn baby, has six major hemoglobin components; alpha 2A beta 2, alpha 2A gamma 2, alpha 2G beta 2, alpha 2G gamma 2, alpha 2J beta 2, alpha 2J gamma 2. These three cases are to be added to three previous cases in the literature in whom three different alpha-chains have been found in the same blood. These findings prove that the alpha-chain locus is duplicated in the Sardinian population, as it is in other populations. The relative amounts of the various hemoglobin species found in members of our two families, through three and four generations respectively, suggest that chromosomes with and without duplication may coexist in the same population.

scholarly journals The 18- to 23-kb deletion of the Macedonian delta beta-thalassemia includes the entire delta and beta globin genes

Blood ◽  
1986 ◽  
Vol 68 (4) ◽  
pp. 971-974 ◽  
Author(s):  
GD Efremov ◽  
N Nikolov ◽  
Y Hattori ◽  
I Bakioglu ◽  
TH Huisman
Keyword(s):  
Globin Gene ◽  
Fetal Hemoglobin ◽  
Large Deletion ◽  
Beta Thalassemia ◽  
Globin Genes ◽  
Beta Globin ◽  
Gamma Delta ◽  
Beta Globin Gene ◽  
Restriction Sites ◽  
Endonuclease Mapping

Abstract Restriction endonuclease mapping analyses were made of DNA from a few members of a Macedonian family with hematological characteristics of delta beta-thalassemia, ie, microcytosis, normal HbA2 levels, and elevated levels of HbF (7% to 14%) with G gamma (average 40.5%) and A gamma T chains (average 59.5%). A large deletion of 18 to 23 kb was present with a 5′ breakpoint within a 670-bp segment of DNA between the HpaI and NcoI restriction sites 5′ to the delta globin gene, and a 3′ breakpoint between the BamHI and HpaI restriction sites located some 9 to 13 kb 3′ to the beta globin gene. This deletion is different from those present in other types of G gamma A gamma(delta beta)zero- thalassemia. The similarity of the hematological expression of these delta beta-thalassemic conditions which have somewhat comparable 5′ breakpoints supports the idea that an important fetal hemoglobin- controlling region lies between the psi beta and delta globin genes.

scholarly journals Coexistence of three hemoglobins with different alpha-chains in two unrelated children (with family studies indicating polymorphism in the number of alpha-globin genes in the Sardinian population)

Blood ◽  
1980 ◽  
Vol 55 (6) ◽  
pp. 1025-1032
Author(s):  
T Meloni ◽  
G Pilo ◽  
L Camardella ◽  
F Cancedda ◽  
A Lania ◽  
...  
Keyword(s):  
Red Cells ◽  
The Other ◽  
Beta Thalassemia ◽  
Globin Genes ◽  
Alpha Chain ◽  
Sardinian Population ◽  
Alpha Globin ◽  
Hemoglobin Variants ◽  
Thalassemia Trait ◽  
Beta 2

In each of two families from Sardinia, Italy, we have found segregation for two alpha-chain hemoglobin variants, which we have identified as G Philadelphia [alpha 68 (E17) Asn leads to Lys] and J Sardinia [alpha 50 (CE8) His leads to Asp], respectively. One family also shows segregation for the beta-thalassemia trait. One subject in one family and two subjects in the other family have in their red cells both hemoglobin variants, G and J, in addition to HbA. One of the subjects, a newborn baby, has six major hemoglobin components; alpha 2A beta 2, alpha 2A gamma 2, alpha 2G beta 2, alpha 2G gamma 2, alpha 2J beta 2, alpha 2J gamma 2. These three cases are to be added to three previous cases in the literature in whom three different alpha-chains have been found in the same blood. These findings prove that the alpha-chain locus is duplicated in the Sardinian population, as it is in other populations. The relative amounts of the various hemoglobin species found in members of our two families, through three and four generations respectively, suggest that chromosomes with and without duplication may coexist in the same population.

scholarly journals The inactive beta globin gene on a gamma delta beta thalassemia chromosome has a normal structure and functions normally in vitro

Blood ◽  
1988 ◽  
Vol 71 (3) ◽  
pp. 766-770
Author(s):  
PT Curtin ◽  
YW Kan
Keyword(s):  
Globin Gene ◽  
Large Deletion ◽  
Beta Thalassemia ◽  
Ribonuclease Protection Assay ◽  
Beta Globin ◽  
Gamma Delta ◽  
Beta Globin Gene ◽  
Thalassemia Minor

We have previously described an English family with gamma delta beta- thalassemia in which a large deletion stops 25 kilobases (kb) upstream from the beta-globin gene locus, and yet the beta-globin gene is inactive in vivo. Affected family members had a beta-thalassemia minor phenotype with a normal hemoglobin A2 level. Gene mapping showed that these subjects were heterozygous for a chromosome bearing a large deletion that began in the G gamma-globin gene, extended through the epsilon-globin gene, and continued upstream for at least 75 kb. The A gamma-, delta-, and beta-globin gene loci on this chromosome were intact. To examine the possibility that an additional defect was present in the beta-globin gene, we cloned, sequenced, and examined the expression of the beta-globin gene from the affected chromosome. No mutation was found in the beta-globin gene sequence from 990 base-pairs 5′ to the cap site to 350 basepairs 3′ to the polyadenylation signal. The gene was subcloned into an expression vector and introduced into HeLa cells. Analysis of RNA derived from these cells, using a ribonuclease protection assay, revealed qualitatively and quantitatively normal transcription. Thus a structurally and functionally normal beta-globin gene is inactive in the presence of a large deletion more than 25 kb upstream. The loss of beta-globin gene function may be due to disturbance of chromatin conformation caused by the deletion or may be the result of loss of upstream sequences that are necessary for beta-globin gene expression in vivo.

scholarly journals The deletion in both common types of hereditary persistence of fetal hemoglobin is approximately 105 kilobases

Blood ◽  
1987 ◽  
Vol 70 (6) ◽  
pp. 1797-1803
Author(s):  
FS Collins ◽  
JL Cole ◽  
WK Lockwood ◽  
MC Iannuzzi
Keyword(s):  
Large Scale ◽  
Fetal Hemoglobin ◽  
Pulsed Field Gel Electrophoresis ◽  
Beta Thalassemia ◽  
Common Mechanism ◽  
Beta Globin ◽  
Gamma Delta ◽  
Large Deletions ◽  
Hereditary Persistence ◽  
American Blacks

The most common forms of hereditary persistence of fetal hemoglobin (HPFH) involve large deletions that remove the adult delta and beta genes but leave the paired fetal genes (G gamma and A gamma) intact. The size of these deletions has previously eluded exact definition. Using pulsed-field gel electrophoresis and the enzyme SfiI, which cuts only rarely in genomic DNA, we have constructed a large-scale restriction map of the beta-globin cluster in normal and HPFH DNA. The deletions in HPFH-1, which occurs in American blacks, and in HPFH-2, which occurs in Ghanaian blacks, are found to be approximately 105 kilobases (kb) in length, though the endpoints are staggered by approximately 5 kb. The fact that two previously reported gamma delta beta-thalassemia deletions to the 5′ side of the beta-globin cluster are also about 100 kb suggests a common mechanism, possibly involving the loss of a complete chromatin loop.

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