ISSN:
2052-1839
Journal Name:
BMC Hematology
Volume:
4
Issue:
2019
Pages From:
1
To:
9
Date:
Monday, February 18, 2019
Keywords:
β-thalassemia intermedia, XmnI polymorphism, α-thalassemia, Palestine
Abstract:
Background: We aimed to investigate the molecular basis of β-Thalassemia intermedia (TI) in the West Bank region
and its management practices.
Methods: This was a case series multi-center study and included 51 cases of TI. DNA sequencing was used to
analyze β-globin gene mutations. Common α-globin gene mutations were screened by Gap-PCR (−α3.7, −α4.2,
−-MED, αααanti3.7) or DNA sequencing (α2-IVS II 5 nt del). XmnI -158 C > T polymorphisms of Gγ-globin gene was
determined by RFLP-PCR.
Results: Seven β-globin gene mutations were observed, namely IVS-I -6 C > T, IVS-I-110 G > A, IVS-II-1 G > A, IVS-I-1
G > A, Codon 37 Trp > Stop, beta − 101 and IVS-II-848 C > A. Ten genotypes were observed. Homozygosity for IVS-I-
6 accounted for the majority of TI cases with a frequency of 74.5%. The second common β-globin gene genotype
was homozygote IVS-I-110 G > A (5.8%) and homozygote IVS-II-1 G > A (5.8%). The remaining seven genotypes were
each detected in about 2% of patients. α-Thalassemia mutations were seen in five patients (9.8%), and included
(−α3.7, αααanti3.7 and α2-IVSII-5 nt del). XmnI polymorphism was observed in four patients (7.8%), three homozygotes
and one heterozygote.
Conclusions: Homozygosity for the mild β-globin gene IVS-I-6 allele was the major contributing factor for the TI
phenotype among the study subjects. The role of XmnI SNP and α-thalassemia mutations in ameliorating the TI
phenotype was observed in few patients for each factor. The beta − 101 C > T mutation was diagnosed in one
patient in homozygote state for the first time in Palestine.
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