Five novel glucose-6-phosphate dehydrogenase deficiency haplotypes correlating with disease severity

Dallol, Ashraf; Banni, Huda A.; Gari, Mamdooh; Al‐Qahtani, Mohammed; Abuzenadeh, Adel M.; Al-Sayes, Fatin; Chaudhary, Adeel G.; Bidwell, J. L.; Kafienah, Wáel

doi:10.1186/1479-5876-10-199

Cited by 17 publications

(12 citation statements)

References 16 publications

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“…Finding class II variants (<10% normal activity) such as Union, Mediterranean, Santa Maria, and Canton in the very deficient region was expected (4, 7) because our reference interval is 9.9 to 16.6 U/g Hb (median, 13.2). However, 1 older review mentions both class II and III activities for the Canton variant (21), and a more recent article shows a range of activities for Mediterranean heterozygous females similar to what they observed for heterozygous female A− variants (22). The single Asahi variant in our study had a G6PD activity of 4.2 U/g Hb (31% of the reference interval median).…”

Section: Roc Curves For Males (A) and Females (B)supporting

confidence: 81%

Genotype–Phenotype Correlations of Glucose-6-Phosphate–Deficient Variants Throughout an Activity Distribution

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Grenache

2018

The Journal of Applied Laboratory Medicine

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Background: Glucose-6-phosphate dehydrogenase (G6PD) deficiency is an X-linked disorder that may manifest as neonatal jaundice or acute hemolytic anemia. Quantitative assessment of G6PD activity in erythrocytes is required to definitively diagnose a deficiency. Most males and homozygous females have low enzyme activities, whereas heterozygous females may have a range of activities. We sought to examine G6PD genotype-phenotype associations to identify an activity cutoff above which G6PD deficiency is unlikely. Methods: Ninety-five residual samples were randomly selected to represent the various regions of a G6PD activity distribution. DNA was isolated from the leukocyte fraction and sequenced using the Sanger method. ROC curves were used to establish cutoffs. Results: Thirteen variant alleles were identified, including 1 not previously reported. In the very deficient activity range, we found males and homozygous females of both class II and III variants. In the deficient category, we found predominantly class III males and heterozygous females. The presumed deficient category contained class III and IV variants and nonvariants. An activity cutoff of <7.85 U/g hemoglobin (Hb) was 100% sensitive and 94% specific for identifying a G6PD-deficient male, and a cutoff of <8.95 U/g Hb was 90% sensitive and 82% specific for a deficient female. Conclusions: The observed activity groupings were not because of a particular variant class. Cutoffs to identify the presence of a deficiency variant for males and females may be useful when trying to decide whether to recommend genetic analysis. IMPACT STATEMENT Although most glucose-6-phosphate dehydrogenase (G6PD)-deficient males and homozygous females have low G6PD activities, heterozygous females and some males have activities that may or may not suggest deficiency. After sequencing of the exon region of samples within each area of an activity distribution, we prepared ROC curves to identify activity cutoffs above which a deficiency is unlikely. A cutoff with 100% sensitivity and 94% specificity was identified for males, whereas a cutoff with 90% sensitivity and 82% specificity was identified for females.

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Section: Roc Curves For Males (A) and Females (B)supporting

confidence: 81%

Genotype–Phenotype Correlations of Glucose-6-Phosphate–Deficient Variants Throughout an Activity Distribution

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Grenache

2018

The Journal of Applied Laboratory Medicine

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“…[9], reported a 20% prevalence of G-6-PD deficiency in his study in Nigeria. In other parts of Africa, the prevalence of G-6-PD deficiency has been reported to be 22.5% in Congo (Brazzaville), 15.7% in Mali (Bamako), 13.0% in Uganda and 9.0-15.5% in Gabon [15]. The higher number of G-6-PD deficient females compared with the males was unexpected as G-6-PD deficiency has been reported to be sex linked with male preponderance.…”

Section: Discussionmentioning

confidence: 99%

Glucose-6-Phosphate Dehydrogenase Deficiency in Individuals Infected with Human Immunodeficiency Virus at the Aminu Kano Teaching Hospital Kano, North Western Nigeria

Abdullahi¹,

Maigatari

Dakata

2017

IJBCRR

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Background: Glucose-6-Phosphate Dehydrogenase (G-6-PD) deficiency is the most important disorder of the pentose phosphate pathway in erythrocyte metabolism resulting in decreased activity of the enzyme. In individuals infected with Human Immunodeficiency Virus (HIV), G-6-PD deficiency could induce hematological complications. Aim: Given the large number of people living with HIV in Nigeria, this study was carried out to determine G-6-PD activity and the prevalence of its deficiency in HIV infected individuals. Also its possible role in inducing hematological complications in the infected individuals on treatment with Antiretroviral Therapy (ART) and prophylactics was evaluated.

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“…This result may be due to variance in the severity of patients’ G6PD deficiency. Previous research has shown variation among patients in clinical settings ranging from asymptomatic to severely anemic . Therefore, further study should use flow cytometry to assess the relationship between the clinical severity of patients’ G6PD deficiency and the number of RBCs positive for Heinz bodies.…”

Section: Discussionmentioning

confidence: 99%

A novel flow cytometry‐based method of analyzing Heinz bodies

Palasuwan

Charoensappakit

et al. 2016

Int J Lab Hematology

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Five novel glucose-6-phosphate dehydrogenase deficiency haplotypes correlating with disease severity

Cited by 17 publications

References 16 publications

Genotype–Phenotype Correlations of Glucose-6-Phosphate–Deficient Variants Throughout an Activity Distribution

Genotype–Phenotype Correlations of Glucose-6-Phosphate–Deficient Variants Throughout an Activity Distribution

Glucose-6-Phosphate Dehydrogenase Deficiency in Individuals Infected with Human Immunodeficiency Virus at the Aminu Kano Teaching Hospital Kano, North Western Nigeria

A novel flow cytometry‐based method of analyzing Heinz bodies

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