Ii antigen system

Chemical structure of N-acetyllactosamine, the base unit in I and i antigens

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.^[1] 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.^[2]

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I and i antigens

Adult red blood cells express I antigen abundantly.^[3] Developing fetuses and newborns express i antigen until around 13-20 months after birth, when I antigen starts to be expressed instead.^[3] 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.^[1]

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.^[1]^[3] 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.^[3] 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.^[6]

Clinical significance

The function of I and i antigens are unknown but may be related to hematopoiesis, the production of blood.^[6] The rapid conversion from i to I antigens after birth suggests that I antigen plays an important role in adult red blood cells.^[3] 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.^[1] 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.^[1] Transient antibodies against i antigen are common after infectious mononucleosis and are also not clinically significant.^[1] Antibodies which recognize both I and i antigens are termed anti-j antibodies.^[1]

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.^[1] 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.^[1]^[8]

Adult i phenotype

Rarely, individuals have the i antigen on their red blood cells into adulthood, known as the adult i phenotype.^[1] This is due to the presence of a mutation in the GCNT2 gene which encodes the I-branching enzyme.^[1]^[3] These individuals have alloantibodies against the I antigen, though these are typically cold agglutinins and are unlikely to cause transfusion reactions.^[2]^[9]

The adult i phenotype is associated with congenital cataracts, most markedly in Japanese and Taiwanese people and least markedly in Caucasian people.^[1]^[6] 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.^[1]

History

The I antigen was first described in 1956 and the i antigen was discovered in 1960.^[1] I and i were the first discovered antigens which change significantly during human development.^[4] The letter I was chosen to reflect the "individuality" of a person studied who lacked the I antigen.^[6]

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.^[1] This is not seen in non-primates: cats, dogs, or guinea pigs.^[1]

References

^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p Daniels G (2013-01-28). "I and i Antigens, and Cold Agglutination". Human Blood Groups. Oxford, UK: Wiley-Blackwell. pp. 469–484. doi:10.1002/9781118493595.ch25. ISBN 978-1-118-49359-5.
^ ^a ^b Castillo B, Dasgupta A, Klein K, Tint H, Wahed A (2018). "Red cell antigens and antibody". Transfusion Medicine for Pathologists. Elsevier. pp. 69–112. doi:10.1016/b978-0-12-814313-1.00005-8. ISBN 978-0-12-814313-1.
^ ^a ^b ^c ^d ^e ^f Yu LC, Lin M (November 2011). "Molecular genetics of the blood group I system and the regulation of I antigen expression during erythropoiesis and granulopoiesis" (PDF). Current Opinion in Hematology. 18 (6): 421–6. doi:10.1097/MOH.0b013e32834baae9. PMID 21912254. S2CID 205827249.
^ ^a ^b "OMIM Entry - # 110800 - BLOOD GROUP, I SYSTEM; Ii". www.omim.org. Retrieved 2021-01-31.
^ Pourazar A (January 2007). "Red cell antigens: Structure and function". Asian Journal of Transfusion Science. 1 (1): 24–32. doi:10.4103/0973-6247.28069. PMC 3168130. PMID 21938229.
^ ^a ^b ^c ^d ^e Reid ME (2020). "The gene encoding the I blood group antigen: review of an I for an eye" (PDF). Immunohematology. 20 (4): 249–52. doi:10.21307/immunohematology-2019-458. PMID 15679458. S2CID 44662081.
^ Reid ME, Lomas-Francis C, Olsson ML (2012). "Ii Blood Group Collection". The Blood Group Antigen Facts Book. Elsevier. pp. 651–653. doi:10.1016/b978-0-12-415849-8.00037-5. ISBN 978-0-12-415849-8. {{cite book}}: |work= ignored (help)
^ ^a ^b Michalak SS, Olewicz-Gawlik A, Rupa-Matysek J, Wolny-Rokicka E, Nowakowska E, Gil L (November 2020). "Autoimmune hemolytic anemia: current knowledge and perspectives". Immunity & Ageing. 17 (1): 38. doi:10.1186/s12979-020-00208-7. PMC 7677104. PMID 33292368.
^ Poole J, Daniels G (January 2007). "Blood group antibodies and their significance in transfusion medicine". Transfusion Medicine Reviews. 21 (1): 58–71. doi:10.1016/j.tmrv.2006.08.003. PMID 17174221.
^ "OMIM Entry - * 600429 - GLUCOSAMINYL (N-ACETYL) TRANSFERASE 2, I-BRANCHING ENZYME; GCNT2". www.omim.org. Retrieved 2021-01-31.

External links

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

v t e Blood transfusion and transfusion medicine
Blood products	Whole blood Platelets Platelet transfusion Red blood cells Plasma Fresh frozen plasma PF24 Cryoprecipitate Cryosupernatant White blood cells Granulocyte transfusion Blood substitutes
General concepts	Blood bank Blood donation Blood management International Society of Blood Transfusion ISBT 128
Methods	Apheresis (plasmapheresis, plateletpheresis, leukapheresis) Exchange transfusion Intraoperative blood salvage
Tests	Blood compatibility testing Cross-matching Coombs test Kleihauer–Betke test Antibody elution Monocyte monolayer assay
Transfusion reactions and adverse effects	Transfusion hemosiderosis Transfusion related acute lung injury Transfusion associated circulatory overload Transfusion-associated graft versus host disease Febrile non-hemolytic transfusion reaction Hemolytic reaction acute delayed Serum sickness Transfusion transmitted infection
Blood group systems	Blood types ABO Secretor status Augustine CD59 Chido-Rodgers Colton Cromer Diego Dombrock Duffy Er FORS Gerbich GIL GLOB Hh Ii Indian JR JMH KANNO Kell (Xk) Kidd Knops Lan Lewis Lutheran LW MNS OK P1PK Raph Rh and RHAG Scianna Sid T-Tn Vel Xg Yt Other

This page was last edited on 2 April 2024, at 18:40

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