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Hemoglobin E

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Hemoglobin E
First thirty amino acid of normal Hb (on top) and of HbE (down).

Hemoglobin E or haemoglobin E (HbE) is an abnormal hemoglobin with a single point mutation in the β chain. At position 26 there is a change in the amino acid, from glutamic acid to lysine (E26K). Hemoglobin E is very common among people of Southeast Asian, Northeast Indian, Sri Lankan and Bangladeshi descent.[1][2]

The βE mutation affects β-gene expression creating an alternate splicing site in the mRNA at codons 25-27 of the β-globin gene. Through this mechanism, there is a mild deficiency in normal β mRNA and production of small amounts of anomalous β mRNA. The reduced synthesis of β chain may cause β-thalassemia. Also, this hemoglobin variant has a weak union between α- and β-globin, causing instability when there is a high amount of oxidant.[3] HbE can be detected on electrophoresis.

Hemoglobin E disease (EE)

Hemoglobin E disease results when the offspring inherits the gene for HbE from both parents. At birth, babies homozygous for the hemoglobin E allele do not present symptoms due to HbF (fetal hemoglobin) they still have. In the first months of life, fetal hemoglobin disappears and the amount of hemoglobin E increases, so the subjects start to have a mild β-thalassemia. People who are heterozygous for hemoglobin E (one normal allele and one abnormal allele) do not show any symptoms (there is usually no anemia or hemolysis). There are cases associated with haemolysis.[4] Subjects homozygous for the hemoglobin E allele (two abnormal alleles) have a mild hemolytic anemia and mild enlargement of the spleen.

Hemoglobin E trait: heterozygotes for HbE (AE)

Heterozygous AE occurs when the gene for hemoglobin E is inherited from one parent and the gene for hemoglobin A from the other. This is called hemoglobin E trait, and it is not a disease. People who have hemoglobin E trait (heterozygous) are asymptomatic and their state does not usually result in health problems. They may have a low mean corpuscular volume (MCV) and very abnormal red blood cells (target cells), but clinical relevance is mainly due to the potential for transmitting E or β-thalassemia.[5]

Heterozygotes for HbE (SE)

Compound heterozygotes with hemoglobin sickle E disease result when the gene of hemoglobin E is inherited from one parent and the gene for hemoglobin S from the other. As the amount of fetal hemoglobin decreases and hemoglobin S increases, a mild hemolytic anemia appears in the early stage of development.

Heredity of hemoglobin E/β-thalassemia

Hemoglobin E/β-thalassaemia

People who have hemoglobin E/β-thalassemia have inherited one gene for hemoglobin E from one parent and one gene for β-thalassemia from the other parent. Hemoglobin E/β-thalassemia is a severe disease, and it still has no universal cure. It affects more than a million people in the world.[6] Symptoms of hemoglobin E/β-thalassemia vary but can include growth retardation, enlargement of the spleen (splenomegaly) and liver (hepatomegaly), jaundice, bone abnormalities, and cardiovascular problems.[7] Recommended course of treatment depends on the nature and severity of the symptoms and may involve close monitoring of hemoglobin levels, folic acid supplements, and potentially regular blood transfusions. [7]

There is a variety of phenotypes depending on the interaction of HbE and α-thalassemia. The presence of the α-thalassemia reduces the amount of HbE usually found in HbE heterozygotes. In other cases, in combination with certain thalassemia mutations, it provides an increased resistance to malaria (P. falciparum).[5] This disease was first described by Virginia Minnich in 1954, who discovered a high prevalence of it in Thailand and initially referred to it as "Mediterranean Anaemia."[7]

Epidemiology

Distribution of red blood cell abnormalities worldwide

Hemoglobin E is most prevalent in mainland Southeast Asia (Thailand, Myanmar, Cambodia, Laos, Vietnam[8]), where its prevalence can reach 30 or 40%, and Northeast India, where in certain areas carrier rates reach 60% of the population. In Thailand the mutation can reach 50 or 70%, and it is higher in the northeast of the country. In Sri Lanka, it can reach up to 40% and affects those of Sinhalese and Vedda descent.[9][10] It is also found at high frequencies in Bangladesh and Indonesia.[11][12] The trait can also appear in people of Turkish, Chinese and Filipino descent.[13] The mutation is estimated to have arisen within the last 5,000 years.[14] In Europe there have been found cases of families with hemoglobin E, but in these cases, the mutation differs from the one found in South-East Asia. This means that there may be different origins of the βE mutation.[15][16]

References

  1. ^ https://www.urmc.rochester.edu/encyclopedia/content.aspx?ContentTypeID=160&ContentID=12
  2. ^ http://www.mhcs.health.nsw.gov.au/publicationsandresources/pdf/publication-pdfs/diseases-and-conditions/9095/oth-9095-eng.pdf
  3. ^ Chernoff AI, Minnich V, Nanakorn S, et al. (1956). "Studies on hemoglobin E. I. The clinical, hematologic, and genetic characteristics of the hemoglobin E syndromes". J Lab Clin Med. 47 (3): 455–489. PMID 13353880.
  4. ^ A.V. Hoffbrand. Essential Haematology. Second edition. Page 69.
  5. ^ a b Bachir, D; Galacteros, F (November 2004), Hemoglobin E disease. (PDF), Orphanet Encyclopedia, retrieved January 13, 2014
  6. ^ Vichinsky E (2007). "Hemoglobin E Syndromes". Hematology Am Soc Hematol Educ Program. 2007: 79–83. doi:10.1182/asheducation-2007.1.79. PMID 18024613.
  7. ^ a b c Fucharoen, Suthat; Weatherall, David J. (2012-08-01). "The Hemoglobin E Thalassemias". Cold Spring Harbor Perspectives in Medicine. 2 (8): a011734. doi:10.1101/cshperspect.a011734. ISSN 2157-1422. PMC 3405827. PMID 22908199.
  8. ^ Hemoglobin E Trait, University of Rochester Medical Center, retrieved January 13, 2014
  9. ^ https://books.google.com/books?id=ywY_dN6ad8gC&printsec=frontcover#v=onepage&q&f=false
  10. ^ http://php.scripts.psu.edu/nxm2/1985%20Publications/1985-roychoudhury-nei.pdf
  11. ^ https://books.google.com/books?id=2grSBwAAQBAJ&printsec=frontcover#v=onepage&q&f=false
  12. ^ Olivieri NF, Pakbaz Z, Vichinsky E (2011). "Hb E/beta-thalassaemia: a common & clinically diverse disorder". Indian J. Med. Res. 134: 522–31. PMC 3237252. PMID 22089616.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  13. ^ https://www.urmc.rochester.edu/encyclopedia/content.aspx?ContentTypeID=160&ContentID=12
  14. ^ Ohashi; et al. (2004). "Extended linkage disequilibrium surrounding the hemoglobin E variant due to malarial selection". Am J Hum Genet. 74 (6): 1189–1208. doi:10.1086/421330. PMC 1182083. PMID 15114532. Free full text
  15. ^ Kazazian HH, JR., Waber PG, Boehm CD, Lee JI, Antonarakis SE, Fairbanks VF. (1984). "Hemoglobin E in Europeans: Further Evidence for Multiple Origins of the βE-Globin Gene". Am J Hum Genet. 36 (1): 212–217. PMC 1684388. PMID 6198908.{{cite journal}}: CS1 maint: multiple names: authors list (link) Free full text
  16. ^ Bain, Barbara J (June 2006). Blood cells: a practical guide (4th ed.). Wiley-Blackwell. ISBN 978-1-4051-4265-6.