Protein 4.1 Lille, a novel mutation in the downstream initiation codon of protein 4.1 gene associated with heterozygous 4,1(−) hereditary elliptocytosis

Abstract Protein 4.1 is an important structural component of the membrane skeleton that helps determine erythrocyte morphology and membrane mechanical properties. In a previous study we identified a case of human hereditary elliptocytosis (HE) in which decreased membrane mechanical stability was due to deletion of 80 amino acids encompassing the entire 10-Kd spectrin-actin binding domain. A portion of this domain (21 amino acids) is encoded by an alternatively spliced exon that is expressed in late but not early erythroid cells. We now report a case of canine HE in which the abnormal phenotype is caused by failure to express this alternative peptide in the mature red blood cell (RBC) membrane skeleton, in conjunction with quantitative deficiency of protein 4.1. Western blotting of RBC membranes from a dog with HE showed a truncated protein 4.1 that did not react with antibodies directed against the alternative peptide. In addition, sequencing of cloned reticulocyte protein 4.1 cDNA showed a precise deletion of 63 nucleotides comprising this exon. Normal dog reticulocytes did express this exon. Expression of this 21 amino acid peptide during erythroid maturation is therefore essential for proper assembly of a mechanically competent membrane skeleton, because RBCs lacking this peptide have unstable membranes.

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Clinical and molecular genetic analysis of a Chinese family with hereditary elliptocytosis caused by a novel mutation in the EPB41 gene

Journal of Clinical Laboratory Analysis ◽

10.1002/jcla.23781 ◽

2021 ◽

Author(s):

Manxiong Cao ◽

Zhanqin Huang ◽

Huanbing Zhou ◽

Jinghua Lin ◽

Dongqing Zhang

Keyword(s):

Genetic Analysis ◽

Novel Mutation ◽

Molecular Genetic ◽

Molecular Genetic Analysis ◽

Chinese Family ◽

Hereditary Elliptocytosis

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A molecular study of heterozygous protein 4.1 deficiency in hereditary elliptocytosis

Blood ◽

10.1182/blood.v72.6.1926.bloodjournal7261926 ◽

1988 ◽

Vol 72 (6) ◽

pp. 1926-1929

Author(s):

S Lambert ◽

J Conboy ◽

S Zail

Keyword(s):

Genomic Dna ◽

Molecular Study ◽

Gene Defect ◽

Coding Region ◽

Protein 4.1 ◽

Hereditary Elliptocytosis ◽

Length Polymorphisms ◽

Partial Deficiency ◽

Random Control ◽

Primary Gene

Genomic DNA from five kindreds and two individuals with hereditary elliptocytosis [HE(4.1+)] and a partial deficiency of protein 4.1 [HE(4.1+)] was extracted and probed with a cDNA for protein 4.1. When using a fragment of the cDNA that encompassed the coding region of the gene, two restriction fragment length polymorphisms segregating with protein 4.1 deficiency were found in one kindred when using the enzymes BgIII and PvuII but were not seen in the other HE(4.1+) subjects or in 20 random control individuals. DNA digested with three other enzymes (HindIII, EcoRI, TaqI) produced restriction patterns similar to controls. The unique BgIII and PvuII polymorphisms probably reflect a rearrangement of the coding region of the protein 4.1 gene as the underlying cause of the partial protein 4.1 deficiency in this family. A less likely possibility is that these polymorphisms represent coincidental single base changes unrelated to the primary gene defect.

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A variant of erythrocyte membrane skeletal protein band 4.1 associated with hereditary elliptocytosis

Blood ◽

10.1182/blood.v64.5.1006.1006 ◽

1984 ◽

Vol 64 (5) ◽

pp. 1006-1015 ◽

Cited By ~ 11

Author(s):

M Garbarz ◽

D Dhermy ◽

MC Lecomte ◽

C Feo ◽

I Chaveroche ◽

...

Keyword(s):

Erythrocyte Membrane ◽

Protein Band ◽

Erythrocyte Membranes ◽

Red Cell ◽

Intact Cells ◽

Additional Band ◽

Whole Cells ◽

Protein 4.1 ◽

Hereditary Elliptocytosis ◽

Sds Page

Abstract A family comprising three patients (a mother and two children) with mild hereditary elliptocytosis was studied. Each patient had prominent elliptocytosis, reduced red cell deformability, and normal erythrocyte thermal sensitivity. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of the erythrocyte membranes in each patient showed decreased levels of band 4.1 (approximately half of the normal value) and the presence of an additional band migrating below protein band 4.2. This additional band was shown to derive from protein 4.1. Comparative partial proteolytic mapping of protein 4.1 and the additional band revealed a number of common peptides. Enzyme-linked immunoelectrotransfer blots of the patients' erythrocyte membranes using a monoclonal antibody to protein 4.1 revealed that, in addition to protein 4.1, two other bands below protein 4.2 were stained; one of these bands migrated in the same position as the additional band detected in the Coomassie Blue-stained gels. Immunoblotting of the patients' whole cells using the antibody to protein 4.1 revealed that this altered band 4.1 occurred as such in the intact red cell. SDS-PAGE of protein 4.1 purified from one patient showed the presence of two lower molecular weight bands below protein 4.1; the lower band migrated in the same position as the additional band found on SDS-PAGE of the patients' erythrocyte membranes. The patient's purified protein 4.1 displayed a decrease of about 40% in the binding activity with crude spectrin extracted from normal controls. Spectrin-spectrin interactions were normal in the three patients. The additional band present in the patients' red cell membranes probably represents a proteolytic degradation product. This alteration, present both in whole cells and isolated membranes, might affect the intact cells in vivo. We suggest that the patients' erythrocyte membrane instability may be related to the presence of an abnormal protein 4.1 whose modulatory influence on the spectrin-actin interaction in the skeleton is defective.

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Analysis of the red cell membrane in a family with hereditary elliptocytosis — total or partial of protein 4.1

Human Genetics ◽

10.1007/bf00278857 ◽

1981 ◽

Vol 59 (1) ◽

pp. 68-71 ◽

Cited By ~ 20

Author(s):

Nicole Alloisio ◽

Evelyne Dorléac ◽

Robert Girot ◽

Jean Delaunay

Keyword(s):

Cell Membrane ◽

Red Cell ◽

Red Cell Membrane ◽

Protein 4.1 ◽

Hereditary Elliptocytosis

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Novel Mutation of the Initiation Codon of PAX9 Causes Oligodontia

Journal of Dental Research ◽

10.1177/154405910508400107 ◽

2005 ◽

Vol 84 (1) ◽

pp. 43-47 ◽

Cited By ~ 65

Author(s):

M.L. Klein ◽

P. Nieminen ◽

L. Lammi ◽

E. Niebuhr ◽

S. Kreiborg

Keyword(s):

Tooth Development ◽

Novel Mutation ◽

Direct Sequencing ◽

Single Gene ◽

Third Molar ◽

Initiation Codon ◽

Permanent Teeth ◽

Enzyme Analysis ◽

Restriction Enzyme Analysis ◽

Exon 1

Tooth development is under strict genetic control. Oligodontia is defined as the congenital absence of 6 or more permanent teeth, excluding the third molar. The occurrence of non-syndromic oligodontia is poorly understood, but in recent years several cases have been described where a single gene mutation is associated with oligodontia. Several studies have shown that MSX1 and PAX9 play a role in early tooth development. We screened one family with non-syndromic oligodontia for mutations in MSX1 and PAX9. The pedigree showed an autosomal-dominant pattern of inheritance. Direct sequencing and restriction enzyme analysis revealed a novel heterozygous A to G transition mutation in the AUG initiation codon of PAX9 in exon 1 in the affected members of the family. This is the first mutation found in the initiation codon of PAX9, and we suggest that it causes haploinsufficiency.

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