Literature DB >> 8941647

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

H Wichterle1, M Hanspal, J Palek, P Jarolim.   

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.

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Year:  1996        PMID: 8941647      PMCID: PMC507680          DOI: 10.1172/JCI119041

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  44 in total

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2.  A deletional frameshift mutation in protein 4.2 gene (allele 4.2 Lisboa) associated with hereditary hemolytic anemia.

Authors:  S Hayette; D Dhermy; M E dos Santos; M Bozon; D Drenckhahn; N Alloisio; P Texier; J Delaunay; L Morlé
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3.  Beta spectrin kissimmee: a spectrin variant associated with autosomal dominant hereditary spherocytosis and defective binding to protein 4.1.

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Journal:  J Clin Invest       Date:  1993-08       Impact factor: 14.808

Review 4.  Spectrin genes in health and disease.

Authors:  P G Gallagher; B G Forget
Journal:  Semin Hematol       Date:  1993-01       Impact factor: 3.851

5.  Molecular basis of spectrin deficiency in hereditary pyropoikilocytosis.

Authors:  M Hanspal; J S Hanspal; K E Sahr; E Fibach; J Nachman; J Palek
Journal:  Blood       Date:  1993-09-01       Impact factor: 22.113

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Authors:  A C Rybicki; J J Qiu; S Musto; N L Rosen; R L Nagel; R S Schwartz
Journal:  Blood       Date:  1993-04-15       Impact factor: 22.113

7.  Duplication of 10 nucleotides in the erythroid band 3 (AE1) gene in a kindred with hereditary spherocytosis and band 3 protein deficiency (band 3PRAGUE).

Authors:  P Jarolim; H L Rubin; S C Liu; M R Cho; V Brabec; L H Derick; S J Yi; S T Saad; S Alper; C Brugnara
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10.  Mutations of conserved arginines in the membrane domain of erythroid band 3 lead to a decrease in membrane-associated band 3 and to the phenotype of hereditary spherocytosis.

Authors:  P Jarolim; H L Rubin; V Brabec; L Chrobak; A S Zolotarev; S L Alper; C Brugnara; H Wichterle; J Palek
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  12 in total

1.  A novel splicing mutation of the alpha-spectrin gene in the original hereditary pyropoikilocytosis kindred.

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6.  Diagnosis and clinical management of red cell membrane disorders.

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7.  Organization and dynamics of tryptophan residues in erythroid spectrin: novel structural features of denatured spectrin revealed by the wavelength-selective fluorescence approach.

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8.  A common variant in combination with a nonsense mutation in a member of the thioredoxin family causes primary ciliary dyskinesia.

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10.  Diagnostic tool for red blood cell membrane disorders: Assessment of a new generation ektacytometer.

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