Mutation of a highly conserved residue of betaI spectrin associated with fatal and near-fatal neonatal hemolytic anemia.

幽灵蛋白 胎儿水肿 溶血性贫血 EPB41 先证者 溶血 生物 亨氏机构 突变 免疫学 遗传学 血红蛋白 生物化学 胎儿 怀孕 细胞骨架 基因 细胞
作者
Patrick G. Gallagher,Mary Jane Petruzzi,Scott A. Weed,Zhigang Zhang,Sally L. Marchesi,Narla Mohandas,Jon S. Morrow,Bernard G. Forget
出处
期刊:Journal of Clinical Investigation [American Society for Clinical Investigation]
卷期号:99 (2): 267-277 被引量:52
标识
DOI:10.1172/jci119155
摘要

We studied an infant with severe nonimmune hemolytic anemia and hydrops fetalis at birth. His neonatal course was marked by ongoing hemolysis of undetermined etiology requiring repeated erythrocyte transfusions. He has remained transfusion-dependent for more than 2 yr. A previous sibling born with hemolytic anemia and hydrops fetalis died on the second day of life. Peripheral blood smears from the parents revealed rare elliptocytes. Examination of their erythrocyte membranes revealed abnormal mechanical stability as well as structural and functional abnormalities in spectrin. Genetic studies revealed that the proband and his deceased sister were homozygous for a mutation of betaIsigma1 spectrin, L2025R, in a region of spectrin that is critical for normal function. The importance of leucine in this position of the proposed triple helical model of spectrin repeats is highlighted by its evolutionary conservation in all beta spectrins from Drosophila to humans. Molecular modeling demonstrated the disruption of hydrophobic interactions in the interior of the triple helix critical for spectrin function caused by the replacement of the hydrophobic, uncharged leucine by a hydrophilic, positively charged arginine. This mutation must also be expressed in the betaIsigma2 spectrin found in muscle, yet pathologic and immunohistochemical examination of skeletal muscle from the deceased sibling was unremarkable.
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