与严重溶血性贫血相关的spta1基因新突变

James R. Polega, Jennifer Stumph, A. Agarwal, Chi Braunreiter
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引用次数: 0

摘要

遗传性球形细胞增多症(HS)、遗传性椭圆细胞增多症(HE)和遗传性焦样细胞增多症(HPP)是由红细胞细胞骨架蛋白、锚蛋白、带3、α-spectrin、β-spectrin和蛋白4.2编码基因ANK1、SLC4A1、SPTA1、SPTB和EPB4突变引起的这些突变和由此产生的缺陷蛋白导致红细胞表面面积的减少和红细胞变形的减少大约25%的患者没有明确的家族史这些常染色体隐性或新发病例严重溶血性贫血提出了诊断挑战。我们报告一个没有家族史的儿童溶血性贫血病例,其中分子诊断提供了明确的红细胞膜疾病诊断。分子诊断的结果显示了一系列复杂的突变,包括SPTA1基因的新突变,这有助于向他的父母咨询,儿童免疫和脾切除术将是合适的治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel mutation in SPTA 1 gene associated with severe hemolytic anemia
Hereditary spherocytosis (HS), hereditary elliptocytosis (HE), and hereditary pyropoikilocytosis (HPP) are caused by mutations in five genes ANK1, SLC4A1, SPTA1, SPTB and EPB4 which encode for the erythrocyte cytoskeletal proteins, ankyrin, band 3, α-spectrin, β-spectrin and protein 4.2, respectively.1 These mutations and the resultant defective proteins lead to loss of red cell membrane surface area and reduced red cell deformity.2 Approximately 25% of patients will not have a clear family history.3 These autosomal recessive or de novo cases of severe hemolytic anemia pose a diagnostic challenge. We report a pediatric case of hemolytic anemia without a family history, where molecular diagnostics provided a definitive diagnosis of a red cell membrane disorder. The results of the molecular diagnostics demonstrated a complex set of mutations, including a novel mutation in the SPTA1 gene, which assisted in counseling his parents that childhood immunizations and splenectomy would be the appropriate treatment.
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