Development of anti-Jk3 associated with silenced Kidd antigen expression and a novel single nucleotide variant of the JK gene.

Q4 Medicine Immunohematology Pub Date : 2021-09-01 DOI:10.21307/immunohematology-2021-015
P A Manrai, A J Siddon, K M Hager, J E Hendrickson, M A Keller, C A Tormey
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引用次数: 0

Abstract

Anti-Jk3 is a rare alloantibody to a high-prevalence antigen primarily seen in individuals of Polynesian descent and is associated with a handful of well-established variants of the SLC14A1 gene. We report a case of the Jknull phenotype, associated with formation of anti-Jk3, in a patient of non-Polynesian descent. This patient, a 51-year-old woman self-described as of Jamaican and Scottish ancestry, presented to our hospital for oncologic care. The patient's blood sample typed as blood group A, D+. All screening and panel reagent red blood cells showed reactivity, ranging from 2 to 4+; autocontrol and direct antiglobulin test were both negative. Antigen phenotyping revealed Jk(a-b-), leading to suspicion for anti-Jk3, which was subsequently confirmed by our immunohematology reference laboratory. Given her reported familial background, testing of the SLC14A1 gene was performed, revealing that the patient was heterozygous for the single nucleotide variant (SNV) at c.838G>A in exon 8 and therefore carries both JK*01 and JK*02 alleles that encode Jka and Jkb, respectively. However, the patient was found to be heterozygous for several additional SNVs: c.28G>A in exon 3; c.191G>A, c.226G>A, and c.303G>A in exon 4; and c.757T>C in exon 7. The patient's Jk(b-) phenotype can be explained by coinheritance of c.838A with c.191G>A, which defines null allele JK*02N.09. Coinheritance of SNVs c.28G>A and c.838G with rare SNV c.757C that is predicted to cause a non-conservative amino acid change (p.S253P) likely accounts for the complete serologic absence of Jka and the ability to form anti-Jk3 in this case. This finding would represent a new JK*01 null allele. This evaluation illustrates the importance of genetic analysis in identifying the factors preventing a high-prevalence antigen from being expressed, particularly when discovered outside of an expected racial or ethnic group.

Anti-Jk3 is a rare alloantibody to a high-prevalence antigen primarily seen in individuals of Polynesian descent and is associated with a handful of well-established variants of the SLC14A1 gene. We report a case of the Jknull phenotype, associated with formation of anti-Jk3, in a patient of non-Polynesian descent. This patient, a 51-year-old woman self-described as of Jamaican and Scottish ancestry, presented to our hospital for oncologic care. The patient’s blood sample typed as blood group A, D+. All screening and panel reagent red blood cells showed reactivity, ranging from 2 to 4+; autocontrol and direct antiglobulin test were both negative. Antigen phenotyping revealed Jk(a–b–), leading to suspicion for anti-Jk3, which was subsequently confirmed by our immunohematology reference laboratory. Given her reported familial background, testing of the SLC14A1 gene was performed, revealing that the patient was heterozygous for the single nucleotide variant (SNV) at c.838G>A in exon 8 and therefore carries both JK*01 and JK*02 alleles that encode Jka and Jkb, respectively. However, the patient was found to be heterozygous for several additional SNVs: c.28G>A in exon 3; c.191G>A, c.226G>A, and c.303G>A in exon 4; and c.757T>C in exon 7. The patient’s Jk(b–) phenotype can be explained by coinheritance of c.838A with c.191G>A, which defines null allele JK*02N.09. Coinheritance of SNVs c.28G>A and c.838G with rare SNV c.757C that is predicted to cause a non-conservative amino acid change (p.S253P) likely accounts for the complete serologic absence of Jka and the ability to form anti-Jk3 in this case. This finding would represent a new JK*01 null allele. This evaluation illustrates the importance of genetic analysis in identifying the factors preventing a high-prevalence antigen from being expressed, particularly when discovered outside of an expected racial or ethnic group.

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与沉默的Kidd抗原表达相关的抗jk3的开发和JK基因的一个新的单核苷酸变体。
Anti-Jk3是一种罕见的针对高流行抗原的同种抗体,主要见于波利尼西亚血统的个体,并与少数SLC14A1基因的已知变体相关。我们报告一个病例的Jknull表型,与抗jk3的形成有关,在一个病人的非波利尼西亚血统。患者,51岁女性,自称有牙买加和苏格兰血统,来我院接受肿瘤治疗。该患者的血样分型为A、D+型。所有筛选和面板试剂红细胞均显示反应性,范围为2 ~ 4+;自动对照和直接抗球蛋白试验均为阴性。抗原表型显示为Jk(a-b-),导致怀疑为抗jk3,随后由我们的免疫血液学参考实验室证实。考虑到已报道的家族背景,我们对该患者进行了SLC14A1基因检测,结果显示该患者为杂合的单核苷酸变异(SNV),位于第8外显子c.838G>A处,因此同时携带分别编码Jka和Jkb的JK*01和JK*02等位基因。然而,该患者在另外几个snv上被发现是杂合的:c.28G>A在第3外显子;c.191G>A, c.226G>A, c.303G>A;C . 757t >C在第7外显子。患者的Jk(b-)表型可以通过c.838A与c.191G>A共遗传来解释,这定义了null等位基因Jk *02N.09。SNV c.28G>A和c.838G与罕见的SNV c.757C共遗传,预计会引起非保守性氨基酸改变(p.S253P),可能是在这种情况下Jka完全血清学缺失和形成抗jk3能力的原因。这一发现可能代表一个新的JK*01空等位基因。这一评价说明了遗传分析在确定阻止高流行抗原表达的因素方面的重要性,特别是当在预期的种族或族裔群体之外发现时。Anti-Jk3是一种罕见的针对高流行抗原的同种抗体,主要见于波利尼西亚血统的个体,并与少数SLC14A1基因的已知变体相关。我们报告一个病例的Jknull表型,与抗jk3的形成有关,在一个病人的非波利尼西亚血统。患者,51岁女性,自称有牙买加和苏格兰血统,来我院接受肿瘤治疗。该患者的血样分型为A、D+型。所有筛选和面板试剂红细胞均显示反应性,范围为2 ~ 4+;自动对照和直接抗球蛋白试验均为阴性。抗原表型显示为Jk(a-b -),导致怀疑为抗jk3,随后由我们的免疫血液学参考实验室证实。考虑到已报道的家族背景,我们对该患者进行了SLC14A1基因检测,结果显示该患者为杂合的单核苷酸变异(SNV),位于第8外显子c.838G>A处,因此同时携带分别编码Jka和Jkb的JK*01和JK*02等位基因。然而,该患者在另外几个snv上被发现是杂合的:c.28G>A在第3外显子;c.191G>A, c.226G>A, c.303G>A;C . 757t >C在第7外显子。患者的Jk(b -)表型可以通过c.838A与c.191G>A共遗传来解释,这定义了null等位基因Jk *02N.09。SNV c.28G>A和c.838G与罕见的SNV c.757C共遗传,预计会引起非保守性氨基酸改变(p.S253P),可能是在这种情况下Jka完全血清学缺失和形成抗jk3能力的原因。这一发现可能代表一个新的JK*01空等位基因。这一评价说明了遗传分析在确定阻止高流行抗原表达的因素方面的重要性,特别是当在预期的种族或族裔群体之外发现时。
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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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