Possible association of 3′ UTR+ 357 a> G, IVS11-nt 93 T> C, c. 1311 C> T polymorphism with G6PD deficiency
MM Sirdah, ME Shubair, MS Al-Kahlout, JM Al-Tayeb… - …, 2017 - Taylor & Francis
Hematology, 2017•Taylor & Francis
ABSTRACT Background: Glucose-6-phosphate dehydrogenase (G6PD) deficiency is a
common X-linked inherited enzymopathic disorder affecting more than 500 million people
worldwide. It has so far been linked to 217 distinct genetic variants in the exons and exon–
intron boundaries of the G6PD gene, giving rise to a wide range of biochemical
heterogeneity and clinical manifestations. Objectives: Reports from different settings
suggested the association of intronic and other mutations outside the reading frame of the …
common X-linked inherited enzymopathic disorder affecting more than 500 million people
worldwide. It has so far been linked to 217 distinct genetic variants in the exons and exon–
intron boundaries of the G6PD gene, giving rise to a wide range of biochemical
heterogeneity and clinical manifestations. Objectives: Reports from different settings
suggested the association of intronic and other mutations outside the reading frame of the …
Abstract
Background: Glucose-6-phosphate dehydrogenase (G6PD) deficiency is a common X-linked inherited enzymopathic disorder affecting more than 500 million people worldwide. It has so far been linked to 217 distinct genetic variants in the exons and exon–intron boundaries of the G6PD gene, giving rise to a wide range of biochemical heterogeneity and clinical manifestations.
Objectives: Reports from different settings suggested the association of intronic and other mutations outside the reading frame of the G6PD gene with reduced enzyme activity and presenting clinical symptoms. The present study aimed to investigate any association of other variations apart of the exonic or exonic intronic boundaries in the development of G6PD deficiency.
Methods: Sixty-seven unrelated Palestinian children admitted to the pediatric hospital with hemolytic crises due to G6PD deficiency were studied.
Results: In our Palestinian cohort of 67 [59 males (M) and 8 females (F)] G6PD-deficient children, previously hospitalized for acute hemolytic anemia due to favism, molecular sequencing of the G6PD gene revealed four cases (3M and 1F) that did not have any of the variants known to cause G6PD deficiency, but the 3′ UTR c.*+357A>G (rs1050757) polymorphism in association with IVS 11 (c.1365-13T>C; rs2071429), and c.1311C>T (rs2230037).
Conclusion: We now provide an additional evidence form Palestinian G6PD-deficient subjects for a possible role of 3′ UTR c.*+357 A>G, c.1365-13T>C, and/or c.1311C>T polymorphism for G6PD deficiency, suggesting that not only a single variation in the exonic or exonic intronic boundaries, but also a haplotype of G6PD should considered as a cause for G6PD deficiency.
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