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SID : A new carbohydrate blood group system based on a well-characterized but still mysterious antigen of great pathophysiologic interest

Stenfelt, L. LU orcid ; Hellberg, A. LU and Olsson, M. L. LU orcid (2023) In Immunohematology 39(1). p.1-10
Abstract

The high-prevalence blood group antigen, Sda, had been puzzling blood bankers and transfusionists for at least a decade when it was reported in 1967. The characteristic mix of agglutinates and free red blood cells (RBCs), caused by anti-Sda, is seen with the RBCs from 90 percent of individuals of European descent. However, only 2-4 percent of individuals are truly Sd(a-) and may produce anti-Sda. The antibodies, generally considered insignificant, may cause hemolytic transfusion reactions with high-expressing Sd(a+) RBCs (e.g., the unusual Cad phenotype, which can also be polyagglutinable). The Sda glycan, GalNAcβ1-4(NeuAcα2-3)Gal-R, is produced in the gastrointestinal and urinary systems, while its origin on RBCs is more controversial.... (More)

The high-prevalence blood group antigen, Sda, had been puzzling blood bankers and transfusionists for at least a decade when it was reported in 1967. The characteristic mix of agglutinates and free red blood cells (RBCs), caused by anti-Sda, is seen with the RBCs from 90 percent of individuals of European descent. However, only 2-4 percent of individuals are truly Sd(a-) and may produce anti-Sda. The antibodies, generally considered insignificant, may cause hemolytic transfusion reactions with high-expressing Sd(a+) RBCs (e.g., the unusual Cad phenotype, which can also be polyagglutinable). The Sda glycan, GalNAcβ1-4(NeuAcα2-3)Gal-R, is produced in the gastrointestinal and urinary systems, while its origin on RBCs is more controversial. According to current theory, Sda is likely to be passively adsorbed in low amounts, except in Cad individuals, where it has been found on erythroid proteins and at higher levels. The long-standing hypothesis that B4GALNT2 encodes the Sda synthase was confirmed in 2019, since homozygosity for a variant allele with rs7224888:C produces a non-functional enzyme associated with most cases of the Sd(a-) phenotype. Thereby, the SID blood group system was acknowledged as number 038 by the International Society of Blood Transfusion. Although the genetic background of Sd(a-) was settled, questions remain. The genetic background of the Cad phenotype has not yet been determined, and the source of the RBC-carried Sda is unknown. Furthermore, the interest of Sda stretches beyond transfusion medicine. Some tantalizing examples are lowered antigen levels in malignant tissue compared with normal tissue and interference with infectious agents like Escherichia coli, influenza virus, and malaria parasites.

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Please use this url to cite or link to this publication:
author
; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
blood group, carbohydrate, genotype1, glycosyl-transferase, phenotype, Sd
in
Immunohematology
volume
39
issue
1
pages
10 pages
publisher
American Red Cross
external identifiers
  • scopus:85151808462
  • pmid:37017600
ISSN
0894-203X
DOI
10.21307/immunohematology-2023-002
language
English
LU publication?
yes
additional info
Publisher Copyright: © 2023 L. Stenfelt et al., published by Sciendo.
id
7c089e39-bb88-468c-a294-319b23697211
date added to LUP
2024-01-12 15:23:39
date last changed
2024-04-27 10:44:44
@article{7c089e39-bb88-468c-a294-319b23697211,
  abstract     = {{<p>The high-prevalence blood group antigen, Sda, had been puzzling blood bankers and transfusionists for at least a decade when it was reported in 1967. The characteristic mix of agglutinates and free red blood cells (RBCs), caused by anti-Sda, is seen with the RBCs from 90 percent of individuals of European descent. However, only 2-4 percent of individuals are truly Sd(a-) and may produce anti-Sda. The antibodies, generally considered insignificant, may cause hemolytic transfusion reactions with high-expressing Sd(a+) RBCs (e.g., the unusual Cad phenotype, which can also be polyagglutinable). The Sda glycan, GalNAcβ1-4(NeuAcα2-3)Gal-R, is produced in the gastrointestinal and urinary systems, while its origin on RBCs is more controversial. According to current theory, Sda is likely to be passively adsorbed in low amounts, except in Cad individuals, where it has been found on erythroid proteins and at higher levels. The long-standing hypothesis that B4GALNT2 encodes the Sda synthase was confirmed in 2019, since homozygosity for a variant allele with rs7224888:C produces a non-functional enzyme associated with most cases of the Sd(a-) phenotype. Thereby, the SID blood group system was acknowledged as number 038 by the International Society of Blood Transfusion. Although the genetic background of Sd(a-) was settled, questions remain. The genetic background of the Cad phenotype has not yet been determined, and the source of the RBC-carried Sda is unknown. Furthermore, the interest of Sda stretches beyond transfusion medicine. Some tantalizing examples are lowered antigen levels in malignant tissue compared with normal tissue and interference with infectious agents like Escherichia coli, influenza virus, and malaria parasites.</p>}},
  author       = {{Stenfelt, L. and Hellberg, A. and Olsson, M. L.}},
  issn         = {{0894-203X}},
  keywords     = {{blood group; carbohydrate; genotype1; glycosyl-transferase; phenotype; Sd}},
  language     = {{eng}},
  month        = {{04}},
  number       = {{1}},
  pages        = {{1--10}},
  publisher    = {{American Red Cross}},
  series       = {{Immunohematology}},
  title        = {{SID : A new carbohydrate blood group system based on a well-characterized but still mysterious antigen of great pathophysiologic interest}},
  url          = {{http://dx.doi.org/10.21307/immunohematology-2023-002}},
  doi          = {{10.21307/immunohematology-2023-002}},
  volume       = {{39}},
  year         = {{2023}},
}