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

Q4 Medicine Immunohematology Pub Date : 2023-04-01 DOI:10.21307/immunohematology-2023-002
L Stenfelt, Å Hellberg, M L Olsson
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引用次数: 1

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. 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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SID:一种新的碳水化合物血型系统,其基础是一种特征明确但仍然神秘的抗原,具有重大的病理生理意义。
Sda是一种高流行率的血型抗原,在1967年被报道出来时,它已经让血库工作者和输血工作者困惑了至少十年。由抗sda引起的凝集物和游离红细胞(rbc)的特征性混合在90%的欧洲人后裔的红细胞中可见。然而,只有2- 4%的个体是真正的Sd(a-),并可能产生抗sda。这些抗体通常被认为是无关紧要的,但可能引起高表达的Sd(a+)红细胞的溶血性输血反应(例如,不寻常的Cad表型,它也可以是多凝集的)。Sda聚糖GalNAcβ1-4(NeuAcα2-3)Gal-R是在胃肠道和泌尿系统中产生的,而其在红细胞上的来源则更有争议。根据目前的理论,Sda很可能是低量的被动吸附,除了Cad个体,在红细胞蛋白上发现了Sda,并且水平更高。B4GALNT2编码Sda合成酶的长期假设在2019年得到证实,因为变异等位基因与rs7224888:C的纯合性产生了一种与大多数Sd(a-)表型相关的无功能酶。因此,SID血型系统被国际输血协会认定为038号。虽然Sd(a-)的遗传背景已经确定,但问题仍然存在。Cad表型的遗传背景尚未确定,红细胞携带的Sda的来源尚不清楚。此外,Sda的兴趣超出了输血医学。一些诱人的例子是,与正常组织相比,恶性组织中的抗原水平较低,感染病原体如大肠杆菌、流感病毒和疟疾寄生虫受到干扰。
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来源期刊
Immunohematology
Immunohematology Medicine-Medicine (all)
CiteScore
1.30
自引率
0.00%
发文量
18
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