Characterization of 13 novel band 3 gene defects in hereditary spherocytosis with band 3 deficiency

遗传性球形红细胞增多症 波段3 移码突变 生物 突变体 分子生物学 无义突变 球形红细胞增多 突变 遗传学 等位基因 单链构象多态性 基因 点突变 错义突变 膜蛋白 免疫学 脾脏 脾切除术
作者
Petr Jarolı́m,J. G. Murray,HL Rubin,WM Taylor,JT Prchal,SK Ballas,LM Snyder,L Chrobák,WD Melrose,V Brabec,J Palek
出处
期刊:Blood [Elsevier BV]
卷期号:88 (11): 4366-4374 被引量:130
标识
DOI:10.1182/blood.v88.11.4366.4366
摘要

Abstract Hereditary spherocytosis (HS) is a common hemolytic anemia of variable clinical expression. Pathogenesis of HS has been associated with defects of several red cell membrane proteins including erythroid band 3. We have studied erythrocyte membrane proteins in 166 families with autosomal dominant HS. We have detected relative deficiency of band 3 in 38 kindred (23%). Band 3 deficiency was invariably associated with mild autosomal dominant spherocytosis and with the presence of pincered red cells in the peripheral blood smears of unsplenectomized patients. We hypothesized that this phenotype is caused by band 3 gene defects. Therefore, we screened band 3 DNA from these 38 kindred for single strand conformational polymorphisms (SSCP). In addition to five mutations detected previously by SSCP screening of cDNA, we detected 13 new band 3 gene mutations in 14 kindred coinherited with HS. These novel mutations consisted of two distinct subsets. The first subset included seven nonsense and frameshift mutations that were all associated with the absence of the mutant mRNA allele from reticulocyte RNA, implicating decreased production and/or stability of mutant mRNA as the cause of decreased band 3 synthesis. The second group included five substitutions of highly conserved amino acids and one in-frame deletion. These six mutations were associated with the presence of comparable levels of normal and mutant band 3 mRNA. We suggest that these mutations interfere with band 3 biosynthesis leading thus to the decreased accumulation of the mutant band 3 allele in the plasma membrane.
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