Ii antigen system explained

The Ii antigen system is a human blood group system based upon a gene on chromosome 6 and consisting of the I antigen and the i antigen. The I antigen is normally present on the cell membrane of red blood cells in all adults, while the i antigen is present in fetuses and newborns.^[1]

I and i antigens

Adult red blood cells express I antigen abundantly.^[2] Developing fetuses and newborns express i antigen until around 13-20 months after birth, when I antigen starts to be expressed instead. Like ABH antigens, which make up the ABO blood group, I and i antigens are not restricted to the red blood cell membrane, but are found on most human cells and in body fluids such as saliva.^[3]

The I and i antigens are carbohydrate structures composed of repeating units of N-acetyllactosamine (LacNAc), and are located on the interior of structures carrying ABH and Lewis antigens. LacNAc repeats are made by the enzymes B3GNT1 and B4GALT1.^[4] The i antigen is made of linear repeats, while the structure of the I antigen is branched. Unlike most other blood groups, the two antigens are not encoded by different alleles; rather, I-branching enzyme converts i antigen to I antigen by adding branches.^{[5] [6]} The gene encoding I-branching enzyme is located on chromosome 6.

Clinical significance

The function of I and i antigens are unknown but may be related to hematopoiesis, the production of blood. The rapid conversion from i to I antigens after birth suggests that I antigen plays an important role in adult red blood cells. The presence of the linear i antigen in fetuses, rather than the branched I antigen, may have developed as an evolutionary mechanism to prevent ABO hemolytic disease of the fetus and newborn. Enhanced expression of i antigen is associated with conditions involving stress hematopoiesis such as leukemia and sickle cell disease.^[7]

Transient autoantibodies against I antigen are common, especially after infection by Mycoplasma pneumoniae, and are rarely significant except in cold agglutinin disease. Transient antibodies against i antigen are common after infectious mononucleosis and are also not clinically significant. Antibodies which recognize both I and i antigens are termed anti-j antibodies.

Cold agglutinin disease

See main article: articles and Cold agglutinin disease. The autoantibodies involved in cold agglutinin disease are usually against I antigen.^[8] The antibodies are usually IgM (kappa subtype), unlike transient autoantibodies which are generally IgG. Cold-reactive IgM antibodies (cold agglutinins) bind to I antigen on red blood cells, and unlike IgG, are able to cause agglutination of red blood cells and activate complement to cause hemolysis, leading to anemia.

Adult i phenotype

Rarely, individuals have the i antigen on their red blood cells into adulthood, known as the adult i phenotype. This is due to the presence of a mutation in the GCNT2 gene which encodes the I-branching enzyme. These individuals have alloantibodies against the I antigen, though these are typically cold agglutinins and are unlikely to cause transfusion reactions.^[9]

The adult i phenotype is associated with congenital cataracts, most markedly in Japanese and Taiwanese people and least markedly in Caucasian people. Cataracts occur when i antigen rather than I antigen is present on the epithelium of the lens, due to a mutation in the form of the I-branching enzyme which is expressed in lens epithelium, IGNTB.^[10]

The adult i phenotype is inherited in a recessive manner.

History

The I antigen was first described in 1956 and the i antigen was discovered in 1960. I and i were the first discovered antigens which change significantly during human development. The letter I was chosen to reflect the "individuality" of a person studied who lacked the I antigen.

Other species

A similar blood group system with a developmental change resembling the Ii system (with human neonatal cells expressing i antigen and adult cells expressing I antigen) has been observed in most primates, including chimpanzees and monkeys. This is not seen in non-primates: cats, dogs, or guinea pigs.

External links

• Ii at BGMUT Blood Group Antigen Gene Mutation Database at NCBI, NIH

Notes and References

1. Book: Castillo B, Dasgupta A, Klein K, Tint H, Wahed A . Red cell antigens and antibody . 2018 . Transfusion Medicine for Pathologists . 69–112 . Elsevier . 10.1016/b978-0-12-814313-1.00005-8 . 978-0-12-814313-1 .
2. Yu LC, Lin M . Molecular genetics of the blood group I system and the regulation of I antigen expression during erythropoiesis and granulopoiesis . Current Opinion in Hematology . 18 . 6 . 421–6 . November 2011 . 21912254 . 10.1097/MOH.0b013e32834baae9 . 205827249 .
3. Book: Daniels G . I and i Antigens, and Cold Agglutination. 2013-01-28 . Human Blood Groups . 469–484 . Oxford, UK . Wiley-Blackwell . 10.1002/9781118493595.ch25 . 978-1-118-49359-5 .
4. Web site: OMIM Entry - # 110800 - BLOOD GROUP, I SYSTEM; Ii. 2021-01-31. www.omim.org. en-us.
5. Pourazar A . Red cell antigens: Structure and function . Asian Journal of Transfusion Science . 1 . 1 . 24–32 . January 2007 . 21938229 . 3168130 . 10.4103/0973-6247.28069 . free .
6. Reid ME . The gene encoding the I blood group antigen: review of an I for an eye . Immunohematology . 2020 . 20 . 4 . 249–52 . 10.21307/immunohematology-2019-458 . 15679458 . 44662081 .
7. Book: Reid ME, Lomas-Francis C, Olsson ML . The Blood Group Antigen Facts Book. Ii Blood Group Collection. 2012 . The Blood Group Antigen FactsBook . 651–653 . Elsevier . 10.1016/b978-0-12-415849-8.00037-5 . 978-0-12-415849-8 .
8. Michalak SS, Olewicz-Gawlik A, Rupa-Matysek J, Wolny-Rokicka E, Nowakowska E, Gil L . Autoimmune hemolytic anemia: current knowledge and perspectives . Immunity & Ageing . 17 . 1 . 38 . November 2020 . 33292368 . 7677104 . 10.1186/s12979-020-00208-7 . free .
9. Poole J, Daniels G . Blood group antibodies and their significance in transfusion medicine . Transfusion Medicine Reviews . 21 . 1 . 58–71 . January 2007 . 17174221 . 10.1016/j.tmrv.2006.08.003 .
10. Web site: OMIM Entry - * 600429 - GLUCOSAMINYL (N-ACETYL) TRANSFERASE 2, I-BRANCHING ENZYME; GCNT2. 2021-01-31. www.omim.org.