两个突变的α-血影蛋白等位基因的组合是严重球形红细胞溶血性贫血的基础。

Combination of two mutant alpha spectrin alleles underlies a severe spherocytic hemolytic anemia.

作者信息

Wichterle H, Hanspal M, Palek J, Jarolim P

机构信息

Department of Biomedical Research, St. Elizabeth's Medical Center, Boston, Massachusetts 02135, USA.

出版信息

J Clin Invest. 1996 Nov 15;98(10):2300-7. doi: 10.1172/JCI119041.

DOI:10.1172/JCI119041

PMID:8941647

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC507680/

Abstract

We studied a patient with a severe spherocytic hemolytic anemia without family history of spherocytosis. Analysis of patient's erythrocyte membrane proteins revealed spectrin deficiency and a truncated alpha spectrin protein. We determined that the patient is a compound heterozygote with two mutations in alpha spectrin gene. Mutation in the paternal allele, designated alpha spectrin(PRAGUE), is a transition A to G in the penultimate position of intron 36 that leads to skipping of exon 37, frameshift, and production of the truncated alpha spectrin protein. The maternal allele, designated alpha spectrin(LEPRA), contains transition C-->T in position -99 of intron 30. This mutation enhances an alternative acceptor splice site 70 nucleotides upstream from the regular site. The alternative splicing causes a frameshift and premature termination of translation leading to a significant decrease in alpha spectrin production. The alpha(LEPRA) mutation is linked to a spectrin alphaIIa marker that was found to be associated with recessive or nondominant spectrin-deficient hereditary spherocytosis in approximately 50% of studied families. We conclude that the alpha(LEPRA) mutation combined in trans with the alpha(PRAGUE) mutation underlie the severe hemolytic anemia in the proband. We suggest that allele alpha spectrin(LEPRA) may be frequently involved in pathogenesis of recessive or nondominant spectrin-deficient hereditary spherocytosis.

摘要

我们研究了一位患有严重球形红细胞溶血性贫血且无球形红细胞增多症家族史的患者。对患者红细胞膜蛋白的分析显示血影蛋白缺乏以及一种截短的α-血影蛋白。我们确定该患者是α-血影蛋白基因有两个突变的复合杂合子。父本等位基因中的突变，命名为α-血影蛋白（布拉格），是内含子36倒数第二个位置的A到G转换，导致外显子37跳跃、移码，并产生截短的α-血影蛋白。母本等位基因，命名为α-血影蛋白（麻风），在内含子30的-99位置含有C→T转换。该突变增强了常规剪接位点上游70个核苷酸处的一个替代受体剪接位点。这种替代剪接导致移码和翻译提前终止，从而导致α-血影蛋白产量显著下降。α（麻风）突变与一个血影蛋白αIIa标记相关，在大约50%的研究家族中发现该标记与隐性或非显性血影蛋白缺乏性遗传性球形红细胞增多症有关。我们得出结论，α（麻风）突变与α（布拉格）突变反式组合是先证者严重溶血性贫血的基础。我们认为等位基因α-血影蛋白（麻风）可能经常参与隐性或非显性血影蛋白缺乏性遗传性球形红细胞增多症的发病机制。

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The preparation and chemical characteristics of hemoglobin-free ghosts of human erythrocytes.人红细胞无血红蛋白空泡的制备及其化学特性

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Blood. 1996 Mar 15;87(6):2538-45.

A nonsense mutation in the erythrocyte band 3 gene associated with decreased mRNA accumulation in a kindred with dominant hereditary spherocytosis.在一个显性遗传性球形红细胞增多症家系中，红细胞带3基因的无义突变与mRNA积累减少相关。

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Band 3 Chur: a variant associated with band 3-deficient hereditary spherocytosis and substitution in a highly conserved position of transmembrane segment 11.3型Chur：一种与3型缺乏遗传性球形红细胞增多症相关的变体，且在跨膜区11的高度保守位置存在替代。

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A novel mutation causing an aberrant splicing in the protein 4.2 gene associated with hereditary spherocytosis (protein 4.2Notame).一种导致与遗传性球形红细胞增多症相关的蛋白质4.2基因异常剪接的新型突变（蛋白质4.2Notame）。

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Blood. 1993 May 15;81(10):2791-8.

Low expression allele alpha LELY of red cell spectrin is associated with mutations in exon 40 (alpha V/41 polymorphism) and intron 45 and with partial skipping of exon 46.红细胞血影蛋白的低表达等位基因α-LELY与第40外显子的突变（α-V/41多态性）、第45内含子的突变以及第46外显子的部分跳跃有关。

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