Abstract

Fetal hemoglobin (Hb F) is present in fetuses and newborn, and a small amount (less than 1%) is found in normal adults. The two types of Gamma chains of Hb F (Ggamma and Agamma) are found in a 70:30 ratio in most newborn and 40:60 in most adults. However, about 20% of Black SS patients have a high (60:40) ratio of G-gamma to A-gamma chains. A specific haplotype for polymorphic restriction endonuclease sites in the Beta-globin gene cluster is found only in SS individuals with G-gamma greater than or equal 50% of total Gamma chain; this suggests close linkage of a high G-gamma genetic determinant to the Beta-globin gene cluster. Three observations suggest that this determinant is near (and possibly 5' to), the G-gamma and/or A-gamma genes: 1) A subhaplotype, + - + +, for sites in the Gamma genes and near the PSBeta gene, is associated with high G-gamma in Black SS, in the Saudi Arabian form of SS, and in low HbF G-gamma-B+-HPFH, although the full haplotypes (for 7 sites) differ. 2) In the newborn baby, the hybrid gene -Ggamma Agamma-produces Agamma polypeptide at levels expected for the G-gamma gene. 3) A mutation 5' to the Ggamma gene is hypothesized as the cause of high Ggamma levels in high Hb F Ggamma-B+-HPFH. This proposal presents the hypothesis that DNA sequence variation near Ggamma and/or Agamma genes changes their relative rates of transcription, as the result of altered interactions of specific DNA sequences with adult erythroid cell factors. To test this, comparisons will be made of the high G-gamma haplotype of Black SS with a low G-gamma haplotye, and two types of high Ggamma HPFH (high and low HB F Ggamma-Beta+-HPFH) with a low Ggamma HPFH (Agamma-B+-HPFH), for the following: 1) DNA sequence of Ggamma and Agamma genes, including flanking regions; this will also be done for three other high Ggamma haplotypes - two seen in Black Beta-thalassemia, and that of Saudi SS. 2) Levels of mature and precursor Ggamma and Agamma mRNA, in reticulocytes and bone marrow cells, and the extent of methylation and DNase I hypersensitivity of DNA of the latter. 3) mRNA expression of cloned Ggamma and Agamma genes in stably-transfected non-erythroid (L) cells and erythroid (mouse erythroleukemia) cells. 4) The effect of in vitro alterations of DNA sequence on gamma-gene expression of cloned DNA, to confirm the effects on expression of mutations found in aim #1. Data obtained in testing this hypothesis will provide important information on the nature of genetic determinants controlling adult G-gamma:A-gamma ratios and HB F levels.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK035443-02
Application #
3233755
Study Section
Mammalian Genetics Study Section (MGN)
Project Start
1985-09-20
Project End
1988-08-31
Budget Start
1986-09-01
Budget End
1987-08-31
Support Year
2
Fiscal Year
1986
Total Cost
Indirect Cost

  Institution

Name
Medical College of Georgia (MCG)
Department
Type
Schools of Medicine
DUNS #
City
Augusta
State
GA
Country
United States
Zip Code
30912

  Publications

Gilman, J G; Josifovska, O; Erlingsson, S et al. (1993) Direct demonstration that the A gamma T globin gene is linked to the 4 bp promoter deletion in the beta A chromosome of sickle cell traits. Am J Hematol 43:312-5
Gilman, J G; Brinson, E C; Mishima, N (1992) The 32.6 kb Indian delta beta-thalassaemia deletion ends in a 3.4 kb L1 element downstream of the beta-globin gene. Br J Haematol 82:417-21
Mishima, N; Brinson, E C; Milner, P F et al. (1991) G gamma and A gamma globin genes are identical from -471 of the promoter midway through gamma IVSII in a Benin beta s haplotype associated with elevated fetal hemoglobin. Am J Hum Genet 48:1175-80
Manca, L; Cocco, E; Masala, B et al. (1990) Polymerase chain reaction amplification applied to the direct detection of a 4 bp deletion in the promoter region of the A gamma gene. Am J Hematol 35:131-3
Ottolenghi, S; Mantovani, R; Nicolis, S et al. (1989) Altered binding to the gamma-globin promoter of two erythroid specific nuclear proteins in different HPFH syndromes. Prog Clin Biol Res 316A:229-36
Mishima, N; Landman, H; Huisman, T H et al. (1989) The DNA deletion in an Indian delta beta-thalassaemia begins one kilobase from the A gamma globin gene and ends in an L1 repetitive sequence. Br J Haematol 73:375-9
Mantovani, R; Superti-Furga, G; Gilman, J et al. (1989) The deletion of the distal CCAAT box region of the A gamma-globin gene in black HPFH abolishes the binding of the erythroid specific protein NFE3 and of the CCAAT displacement protein. Nucleic Acids Res 17:6681-91
Mishima, N; Gilman, J G; Huey, L O et al. (1989) A gamma globin gene with G gamma-like promoter in a benin sickle cell anemia haplotype associated with elevated fetal hemoglobin. Prog Clin Biol Res 316B:403-8
Gilman, J G (1988) Expression of G gamma and A gamma globin genes in human adults. Hemoglobin 12:707-16
Liu, J Z; Gilman, J G; Cao, Q et al. (1988) Four categories of gamma-globin gene triplications: DNA sequence comparison of low G gamma and high G gamma triplications. Blood 72:480-4

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