Rare α0-thalassemia deletions detected by MLPA in five unrelated Brazilian patients

α0-Thalassemia Caused by a Novel α-Globin Gene Cluster Deletion (-LB) Found in a Chinese Family

We report a novel large α-globin gene cluster deletion in a Chinese family from the Guangxi Zhuang Autonomous Regionfor the first time. The proband was a 20-year-old male who presented with microcytic hypochromatosis. Routine genetic analysis showed none of the common mutations in theα-globin and β-globin genes. Multiplex ligation-dependent probe amplification (MLPA) of the α-globin chain revealed there was a large deletion, which removed the entire HBA2 and HBA1 genes, HBQ gene, HBZ gene, and major regulatory element HS-40, eliminating more than 134 kb from the α-globin chain. Subsequently, pedigree analysis revealed that the proband inherited the novel deletion from his father. By consultation of literature and databases, it was confirmed as a hitherto undescribed chain deletion and named Laibin deletion (-LB) for the origin of the proband.

The comprehensive analysis of thalassemia alleles (CATSA) based on single-molecule real-time technology (SMRT) is a more powerful strategy in the diagnosis of thalassemia caused by rare variants

Thalassemia is one of the most widely distributed monogenic disorders in the world and affects the largest number of people. It can manifest a wide spectrum of phenotypes from asymptomatic to fatal, which is associated with the degree of imbalance between α- and β-globin chains. Therefore, individuals with different genotypes could present with a similar phenotype. Genetic analysis is always needed to make a correct diagnosis. However, routine genetic analysis of thalassemia used in the Chinese population identifies only 23 common variants, resulting in many cases undiagnosed or being misdiagnosed. In this study, we applied a long-read sequencing-based approach termed comprehensive analysis of thalassemia alleles (CATSA) to 30 subjects whose hematologic screening results could not be explained by the routine genetic test results. The identification of additional variants and the correction of genotypes allowed the interpretation of the clinical phenotype in 24 subjects, which have been confirmed to be correct by independent experiments. Moreover, we identified a novel 8.4-kb deletion containing the entire HBB and HBD genes as well as part of the HBBP1 gene, expanding the genotype spectrum of β-thalassemia. CATSA showed a great advantage over other genetic tests in the diagnosis of thalassemia caused by rare variants.

Characterization of New Alpha Zero (α0) Thalassaemia Deletion (--GB) among Malays in Malaysian Population

Malaysia is a multicultural and multiethnic country comprising numerous ethnic groups. From the total population of 32.7 million, Malays form the bulk of the Bumiputera in Malaysia comprise about 69.9%, followed by Chinese 22.8%, Indian 6.6%, and others 0.7%. The heterogeneous population and increasing numbers of non-citizens in this country affects the heterogeneity of genetic diseases, diversity, and heterogeneity of thalassaemia mutations. Alpha (α)-thalassaemia is an inherited haemoglobin disorder characterized by hypochromic microcytic anaemia caused by a quantitative reduction in the α-globin chain. A majority of the α-thalassaemia are caused by deletions in the α-globin gene cluster. Among Malays, the most common deletional alpha thalassaemia is -α3.7 deletion followed by --SEA deletion. We described the molecular characterization of a new --GB deletion in our population, involving both alpha genes in cis. Interestingly, we found that this mutation is unique among Malay ethnicities. It is important to diagnose this deletion because of the 25% risk of Hb Bart's with hydrops fetalis in the offspring when in combination with another α0- thalassaemia allele. MLPA is a suitable method to detect unknown and uncommon deletions and to characterize those cases which remain unresolved after a standard diagnostic approach.

Breakpoint characterization of a rare alpha0 -thalassemia deletion using targeted locus amplification on genomic DNA

Introduction

The high‐sequence homology of the α‐globin‐gene cluster is responsible for microhomology‐mediated recombination events during meiosis, resulting in a high density of deletion breakpoints within a 10 kb region. Commonly used deletion detection methods, such as multiplex ligation‐dependent probe amplification (MLPA) and Southern blot, cannot exactly define the breakpoints. This typically requires long‐range PCR, which is not always successful. Targeted locus amplification (TLA) is a targeted enrichment method that can be used to sequence up to 70 kb of neighboring DNA sequences without prior knowledge about the target site.

Methods

Genomic DNA (gDNA) TLA is a technique that folds isolated DNA, ensuring that adjacent loci are in a close spatial proximity. Subsequent digestion and religation form DNA circles that are amplified using fragment‐specific inverse primers, creating a library that is suitable for Illumina sequencing.

Results

Here, we describe the characterization of a rare 16 771 bp deletion, utilizing gDNA TLA with a single inverse PCR primer set on one end of the breakpoint. Primers for breakpoint PCR were designed to confirm the deletion breakpoints and were consequently used to characterize the same deletion in 10 additional carriers sharing comparable hematologic data and similar MLPA results.

Conclusions

The gDNA TLA technology was successfully used to identify deletion breakpoints within the alpha‐globin cluster. The deletion was described only once in an earlier study as the ‐‐^gb, but as it was not registered correctly in the available databases, it was not initially recognized as such.

Analysis of rare thalassemia caused by HS-40 regulatory site deletion

ABSTRACT Objectives: To investigate the effect of HS-40 regulatory site deletion on α-globin gene expression and its clinical significance. Methods: Venous blood samples of subjects were analyzed using a hematology analyzer and high- performance liquid chromatography; fetal cord blood was analyzed by a capillary electrophoresis analyzer. Gap-polymerase chain reaction (PCR), reverse dot blot (RDB), and multiple-link-dependent probe amplification (MLPA) were used for genotyping of thalassemia. Results: The proband was POLR3 K, HS-40 heterozygous deletion; the proband's wife was -SEA/αα; the fetus was POLR3 K, HS-40 heterozygous deletion combined with -SEA deletion; all of them had microcytic hypochromic anemia. Fetal umbilical cord blood electrophoresis revealed a suspected Hb Bart's band to be 88.4%, and the fetus was, thus, diagnosed as Hb Bart's fetus. The red blood cell parameters of the sporadic case showed that he had microcytic hypochromic anemia. Hemoglobin (Hb) electrophoresis analysis showed Hb H to be 5.3%, leading to a diagnosis of Hb H disease. Gap-PCR and RDB identified the genotype to be -α3.7/αα, β^A/β^A. MLPA detected heterozygous deletion or -α3.7 deletion on one allele and deletion of the HS-40 regulatory site on the other allele. Conclusion: The deletion of HS-40 regulatory site reduced expression of α-globin. HS-40 heterozygous deletion manifested as mild anemia, which was of microcytic hypochromic type. When compounded with -α3.7/αα, it manifested as Hb H disease; and when compounded with -SEA/αɑ, it manifested as Hb Bart's fetus.

Novel α0-Thalassemia Deletion Identified in an Indian Infant with Hb H Disease

We report the identification of a large deletion of the α-globin gene cluster, which removed both HBA2 and HBA1 and included the region from HBZ to HBQ1 on chromosome 16 (16p13.3). The α⁰-thalassemia (α⁰-thal) deletion was discovered in an Indian family residing in New Zealand. The proband was a 3-month-old female, who presented with a Hb H disease of unknown molecular origin. Routine hematology showed marked hypochromic microcytic anemia, with numerous Hb H inclusion bodies. In the absence of iron deficiency, there was a strong clinical suspicion of α-thal. On initial screening using a multiplex gap polymerase chain reaction (gap-PCR), only the common rightward deletion (-α^3.7) was detected. Investigation of the proband's mother and father revealed the mother was heterozygous for the -α^3.7 deletion, while none of the seven most common pathogenic α-thal deletions were detected in the father. Multiplex ligation-dependent probe amplification (MLPA) was employed to detect the presence of a novel α⁰-thal deletion in both the proband and her father. For the proband, the α⁰-thal deletion in combination with the -α^3.7 deletion, eliminated three copies of HBA consistent with a clinical diagnosis of Hb H disease.

Characterization of two novel Alu element-mediated α-globin gene cluster deletions causing α0-thalassemia by targeted next-generation sequencing

α-thalassemia is an inherited blood disorder commonly caused by deletions or point mutations involving one or both α-globin genes. Recent studies shed new light on the critical role of upstream enhancers multi-species conserved sequences (MCSs) in the ordered regulation of α-globin gene expression. Herein, we reported two unrelated probands with deletions in α-globin genes and MCSs, respectively. The proband from Family A is a compound heterozygote carrying a known α⁺ mutation (-α^3.7) and a novel 60.2 kb deletion causing the absence of both α-globin genes. The proband from Family B, on the other hand, is a compound heterozygote with a known α⁰ mutation (--^SEA) and a novel deletion involving only upstream regulatory elements MCS-R1, R2 and R3, while the α-globin genes remain intact. Notably, both these two patients suffered varied extent of anemia, indicating that the loss of enhancer elements could equally lead to reduced synthesis of α-globin. Upon these observations, we then confirmed the exact breakpoints of these two novel deletions using a targeted next-generation sequencing (NGS) previously established by our group, which may enable further elucidation of the rearrangement mechanisms on these deletions and functional dissection of MCSs. Taken together, our study reports a reliable NGS-based molecular screening approach for accurate identification of copy number variations (CNVs) in the α-globin cluster and the genetic diagnosis of these two probands may help to extend the spectrum of α-thalassemia mutations in Chinese population.

Alpha-Thalassemia in North Morocco: Prevalence and Molecular Spectrum

Unlike the other hemoglobinopathies, few researches have been published concerning α-thalassemia in Morocco. The epidemiological features and the mutation spectrum of this disease are still unknown. This regional newborn screening is the first to study α-thalassemia in the north of Morocco. During the period from January 2015 to December 2016, 1658 newborns umbilical blood samples were investigated. Suspected newborns were screened for α-globin defects using Gap-PCR and Multiplex Ligation-dependent Probe Amplification technique. The prevalence of α-thalassemia, its mutation spectrum, and its allelic frequencies were described for the first time in Morocco. Six different α-globin genetic disorders were detected in 16 neonates. This screening valued the prevalence of α-thalassemia in the studied population at 0.96% and showed the wide mutation spectrum and the heterogeneous geographical distribution of the disease. A high rate of carriers was observed in Laouamra, a rural commune in Larache province. Heterogeneity of α-globin alleles in Morocco explains the high variability of α-thalassemia severity. This diversity reflects the anthropological history of the country. These results would contribute to the prevention of thalassemia in Morocco directing the design of a nationwide screening strategy and awareness campaign.