Articles

β-Globin Gene Cluster Haplotypes in Iranian Patients with β-Thalassemia

Abstract

Introduction: β-globin gene cluster haplotypes are useful in diagnosis of particular molecular defects in β-thalassemia, prenatal diagnosis of β-thalassemia, and elucidating population affinities.
Methods: β-globin gene cluster haplotypes were studied in 150 β-thalassemia minor and 52 healthy in-dividuals from the Fars province of Iran. DNA was extracted from leukocytes of whole blood by phe-nol-chloroform. Haplotype was determined by PCR-RFLP technique. }
Results: There were 26 out of 150 with homozygous haplotypes. Haplotype I was found as the most prevalent haplotype among both patients and normal individuals. Out of 26 patients bearing homozy-gous haplotypes, 12 (46.2%) had typical haplotype I and 3 (11.5%) had atypical haplotype I. The prevalence of haplotype I in normal control subjects was around 43% (45 out of 104 βA chromo-somes). The second prevalent haplotype was haplotypes V (15.4%) and III (15.4%) for homozygous patients and controls, respectively. The most frequent mutation in patients was IVS II.1 (G→A) that was not linked to a single haplotype. IVS I.110 (G→A) mutation was linked to haplotype I. Mutation in codon 30 (G→A) was associated with haplotype V.
Conclusion: Being Haplotype I the most prevalent haplotype in β-thal and βA chromosomes, implies that β-thalassemia mutations might have arisen in the chromosomal background common in the popula-tion, rather than due to selection pressure or gene flow (migration). Patients with haplotype IX had the highest HbF levels compared to other haplotypes.

Karimi M, Alavian Ghavanini A, Kadivar MR. Re- gional mapping of the gene frequency of β-thalassemia in Fars province, Iran during 1997-1998. Irn J Med Sci. 2000; 25: 134-137

Merat A, Haghshenass M, Mostafavi pour Z, Plonc- zynski MW, Harrell AN, Coleman MB, Steinberg MH. β-thalassemia in Southwestern Iran. Hemoglobin. 1993; 17: 427-437.

Karimi M, Yarmohammadi H, Farjadian S, Zeinali S, Moghaddam Z,Cappelini MD,Giordano PC. Beta- thalassemia intermedia from southern Iran: IVSII-I (G→A) is the prevalent thalassemia intermedia allele. Hemoglobin. 2002; 26: 147-15.

Orkin SH, Kazazian HH, Jr, Antonarakis SE, Goff SC, Boehm CD, Sexton JP, Waber PG, Giardana JV. Linkage of β thalassemia mutations and β globin gene polymorphism with DNA polymorphism in human β glo- bin gene cluster. Nature. 1982; 296: 627-632.

Forget BG, Pearson HA. Hemoglobin synthesis and the thalassemias. In: Handin RI, Lux SE, and Stossel TP, editors. Blood: Principles and practice of hematology. Philadelphia. J.B. Lippincott Company, 1995; p 1525- 1590.

Fairbanks VF, Klee GG. Biochemical aspects of he- matology. In: Burtis CA, Ashwood ER, editor. Tietz text book of clinical chemistry. Philadelphia: W.B Saunders, 1994; p 2041-2042.

Betke K, Marti HR, Schlicht I. Estimation of small percentages of foetal haemoglobin. Nature. 1959;184: 1877-78.

Schneider RG. Differentiation of electrophoretically similar hemoglobins- such as S, D, G and P; or A2, C, E, and O by electrophoresis of the globin chains. Clin Chem. 1974; 20: 1111-1115.

Old JM, Higgs DR. Gene analysis. In: Weatherall DJ, editor. Methods in hemotology. Vol:6. The thalas- semias. Livingstone, 1983; p 74-101.

Old JM. Hemoglobinopathies. In: Elles R, editor. Methods in Molecular Medicine: Molecular diagnosis of genetic disease. Totowa, NJ: Humana press Inc, 1996; p 169-183.

Lee YJ, Park SS, Kim JY, Cho HL. RFLP haplo- types of β-globin gene complex of β-thalassemic chro- mosomes in Koreans. J Korean Med Sci. 2002; 17: 475- 8.

Maggio A, Giambona A, Cai SP, Wall J, Kan YW, Chehab C. Rapid and simultaneous typing of haemoglo- bin S, haemoglobin C and seven Mediterranean β- thalassemia mutations by covalent reverse dot-blot analy- sis: application to prenatal diagnosis in Sicily. Blood.1993; 81: 239-242

Cai SP, Wall J, Kan YW, Chehab FF. Reverse dot blot probes for the screening of β-thalassemia in Asians and American Blacks. Hum Mutat. 1994; 3: 59-63

Ghanem N, Girodon E, Vidaud M, Martin J, Fanen P, Plassa F, Goossens M. A comprehensive scanning method for rapid detection of β-globin gene mutations and polymorphisms. Hum Mutat 1992.1:229-239.

Nagel RL, Ranney HM. Genetic epidemiology of structural mutations of the β-globin gene. Semin He- matol 1990; 27: 342-359.

Antonarakis SE, Kazazian HH, jr, Orkin SH. DNA polymorphism and molecular pathology of the human globin gene cluster. Hum.Gene 1985.69: 1-14.

Chehab FF, Der Kaloustian V, Khouri FP, Deeb SS, Kan YW. The molecular basis of β-thalassemia in Leba- non: application to prenatal diagnosis. Blood 1987; 69: 1141-1145.

Labie D, Dunda-Belkhodja O, Roubahi F, Pagnier J, Ragusa A, Nagel RL. The -158 site 5 to the Gγ gene and Gγ expression. Blood 1985; 66: 1463-1465.

Labie D, Pagnier J, Lapoumeroulie C, Rouabhi F, Dunda-Belkhodja O, Chardin P, Beldjord C, Wajcman H, Fabry ME, Nagel RL. Common haplotype dependency of high G gamma-globin gene expression and high Hb F levels in beta-thalassemia and sickle cell anemia patients. Proc Natl Acad Sci U S A. 1985; 82: 2111-4.

Thein SL, Wainscot JS, Sampietro M, Old JM, Cap- pelini D, Fiorelli G, Modell B, Weatheral DJ. Association of thalassemia intermedia with a beta-globin gene haplo- type. Br.J.Haematol. 1987; 65: 367-373.

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Keywords
β-globin gene haplotypes

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1.
Rahimi Z, Merat A, Akhzari M, Haghshenass M, Ronald L N, Nathalie G, Rajagopal K- namoorthy. β-Globin Gene Cluster Haplotypes in Iranian Patients with β-Thalassemia. Int J Hematol Oncol Stem Cell Res. 1;2(3):30-34.