Modification of Hemoglobin H Disease by Sickle Trait

Matthay, Katherine K.; Mentzer, William C.; Dozy, Andrée M.; Kan, Yuet Wai; Bainton, Dorothy F.

doi:10.1172/jci109539

Cited by 27 publications

(11 citation statements)

References 40 publications

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“…with the AS; --/-a genetic condition closely resembles the sixyear-old black-Chinese boy described by Matthay el a1 [17] Pi tetramers in the youngest red cells and not in the older cells isolated from the bottom layers is consistent with the known physico-chemical properties of these abnormal Hbs and may to some extent explain the difficulties in identifying these Hb variants in whole red cell lysates.…”

Section: Discussionsupporting

confidence: 69%

Quantitation of hemoglobin components by high‐performance cation‐exchange liquid chromatography: Its use in diagnosis and in the assessment of cellular distribution of hemoglobin variants

Kutlar

Wilson

et al. 1984

American J Hematol

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Additional data are presented that were obtained with a newly developed cation-exchange high-performance liquid chromatography (HPLC) method allowing the separation of numerous normal and abnormal human hemoglobin types. The method was found to be of considerable value for the diagnosis of certain hemoglobinopathies in the adult as well as in the newborn. Definitive differentiation between, AS, SS, S-beta+-thal, SD, SC, AC, C-beta+-thal, etc in cord bloods was readily accomplished even when the samples were collected on filter paper. Analyses of the hemoglobin in cells from Hb S and Hb C heterozygotes with different numbers of alpha chain genes (alpha alpha/alpha alpha; -alpha/alpha alpha; -alpha/-alpha) after separation by a Dextran density centrifugation technique failed to show significant changes in the relative quantitation of the variant hemoglobin types. Glycosylation of hemoglobin increased greatly with an increase in red cell age. Similar analyses of red cells from a young girl with Hb S trait and Hb H disease (the --/-alpha genic arrangement) gave comparable data. Some indication was obtained that her youngest cells contained some of the beta A4 and beta S4 tetrameric hemoglobins.

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Section: Discussionsupporting

confidence: 69%

Quantitation of hemoglobin components by high‐performance cation‐exchange liquid chromatography: Its use in diagnosis and in the assessment of cellular distribution of hemoglobin variants

Kutlar

Wilson

et al. 1984

American J Hematol

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“…Matthay et al [23] have suggested that sickle cell trait may modify Hb H disease because the relatively low Hb A level reduces the availability of ␤ -chains to form Hb H.…”

Section: Discussionmentioning

confidence: 99%

Alpha-2-Globin Gene Polyadenylation (AATAAA→AATAAG) Mutation in Hemoglobin H Disease among Kuwaitis

Haider

Adekile²

2005

Med Princ Pract

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Objectives: In the Arabian Gulf region, hemoglobin (Hb) H disease usually results from homozygosity or compound heterozygosity involving the α₂-globin gene polyadenylation (poly A) signal (AATAAA→AATAAG) mutation (α^Tα). Here we document the clinical and hemato logical characteristics of children with Hb H disease being followed in Kuwait. Subjects and Methods: Twenty-four patients (0.5–12 years old, mean 4.7 ± 3.5 years) with persistent microcytic, hypochromic anemia (and normal iron status as well as normal Hb A₂ levels) were referred to the pediatric hematology clinic for further investigations. They were all screened for the α⁺-thalassemia (α⁺-thal; –3.7 kb) deletion using a standard PCR method. They were also screened for the α₂-globin gene α^Tα allele and the 5nt deletion (–α^5nt) in the first intervening sequence, which are common α-thal alleles in this population. They were followed up for periods ranging from 2 to 8 years. Results: Of the 24 patients, 4 (16.7%) also had sickle cell trait (Hb-AS), while 7 (29.2%) were glucose-6-phosphate dehydrogenase deficient. Only 1 patient had significant hepatosplenomegaly and 1 developed gallstones. While none was on chronic transfusion therapy, 8 (33.3%) had been transfused at least once and, in 3 instances, this was secondary to parvovirus B19 +ve aplastic crisis. The α-globin genotype was successfully determined in almost all patients. The results showed that 17 (70.8%) patients were homozygous for the poly A mutation (α^Tα/α^Tα), 6 (25.0%) were compound heterozygotes for this and the α⁺-thal (–3.7 kb) deletion (–α/α^Tα) and 1 (4.2%) was undetermined. There were no significant differences in the phenotypes of the 2 genotypes and their hematological features were identical. Conclusions: Hb H disease involving the poly A mutation is a mild thal intermedia phenotype among Kuwaitis. There are no serious complications and there is no need for regular blood transfusion.

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“…Previously, an unusual EE/Hb H interaction has been observed in a 34-year-old Thai woman 10 who had only 4% of Hb F without Hb Bart, and it has been suggested that the absence of Hb Bart might have been a result of diminished adult level of c-globin expression similar to the temporal decline of Hb F and Bart in an individual with Hb S and a single a-gene. 11 However, previous studies from Thailand demonstrated that Hb Bart in this syndrome could be detected even in the sixth decade of life, 3 and our observation of this ''cinactive'' EE/Hb H in two different age groups suggests that the chronological decreased c-expression seems unlikely. However, this may suggest that there is a different genetic background acting either in cis or in trans on the c-globin expression in these individuals that differentiates them from the majority of cases with EE/Hb H. Study of these unusual cases in greater detail may provide some insights in different genetic heterogeneity of the c-globin expression and persistent production of Hb F in our population.…”

Section: Discussionmentioning

confidence: 48%

Unusual phenotype of Hemoglobin EE with Hemoglobin H disease: a pitfall in clinical diagnosis and genetic counseling

Viprakasit

Tanphaichitr

2004

The Journal of Pediatrics

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Modification of Hemoglobin H Disease by Sickle Trait

Cited by 27 publications

References 40 publications

Quantitation of hemoglobin components by high‐performance cation‐exchange liquid chromatography: Its use in diagnosis and in the assessment of cellular distribution of hemoglobin variants

Quantitation of hemoglobin components by high‐performance cation‐exchange liquid chromatography: Its use in diagnosis and in the assessment of cellular distribution of hemoglobin variants

Alpha-2-Globin Gene Polyadenylation (AATAAA→AATAAG) Mutation in Hemoglobin H Disease among Kuwaitis

Unusual phenotype of Hemoglobin EE with Hemoglobin H disease: a pitfall in clinical diagnosis and genetic counseling

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