Abstract
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.
Highlights
Beta-thalassemia major (BTHAL) is a well-known life-threatening condition characterized by severe transfusiondependent anemia
In case 1, variant HBB:c.202G > A (p.Val67Met) was found in exon 2 in the heterozygous state. This HBB variant is known as Hb Bristol-Alesha, a Unstable hemoglobinopathies (UHs) associated with moderate-severe hemolytic anemia
We highlight the importance of including globin genes in the next generation sequencing (NGS) analysis of rare anemia disorders (RADs) for enabling the diagnosis of UH
Summary
Beta-thalassemia major (BTHAL) is a well-known life-threatening condition characterized by severe transfusiondependent anemia. The study we present confirms the relevance of including globin genes in generation sequencing (NGS) approaches for the diagnosis of rare anemia disorders (RADs), especially for cases with no family history in which the anemia is not explained. Genetic analysis was performed on PKLR and G6PD genes failing to reveal any disease-causing mutation.
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