Coinheritance of two alpha-spectrin gene defects in a recessive spherocytosis family.

We studied a recessive hereditary spherocytosis (HS) family from Norway in which all four children had haemolytic spherocytosis while spectrin (Sp) deficiency was detected in the proband. Molecular analysis demonstrated that all affected children had inherited the low expression alpha-Sp allele LEPRA (Low Expressed PRAgue) from the father. Haplotyping with a polymorphic dinucleotide repeat for the alpha-Sp gene (alphaVNTR) located in the 3' untranslated region of mRNA showed that all recessive children had inherited the same maternal alpha-spectrin allele. The paternal Sp-alphaLEPRA allele was found in cis of the polymorphic alpha-Sp Bughill allele (alphaBH) characterized by the A970D point mutation in the Sp alpha-chain. This mutation was identified on two-dimensional electrophoresis of Sp tryptic digests as an acidic shift of the alphaII tryptic domains (spots alphaIIa). Analyses of the relative expression of the paternal alpha-Sp Bughill polymorphism in the proband showed that the product of the maternal alpha-Sp gene is almost completely absent from the mature erythrocyte membrane. Comparative analysis between alphaVNTR PCR-amplified from genomic DNA and from cDNA showed that the maternal low expression alpha-Sp allele is associated with a decreased amount of mRNA. Results from molecular and biochemical studies showed that all the affected children of this family are compound heterozygous for two different low expression alpha-Sp alleles: an uncharacterized defective alpha-Sp allele on the maternal side and an alphaLEPRA allele tagged by the alphaIIa polymorphism on the paternal side.

Hereditary spherocytosis with spectrin deficiency related to null mutations of the beta-spectrin gene.

Spectrin deficiency is the most common deficiency found in HS. It is heterogeneous in terms of clinical expression, inheritance (dominant or recessive) and underlying genetic defects (related to alpha- or beta-spectrin gene defects or secondary to ankyrin gene defects). We studied a sampling of French dominant HS families, selected after linkage analyses, and found the presence of mutations resulting in the silencing of the mutant beta-spectrin allele. In three HS families, one haploid set of beta-spectrin mRNA was undectectable. In two families, a deletion of 8 bases (leading to a frameshift and a premature stop codon) and a nonsense mutation were identified, respectively. In the third HS family, we were unable to characterize a relevant mutation but the loss of heterozygosity at the cDNA level suggested the presence of a null mutation of the beta-spectrin allele. Sequencing of the beta-spectrin gene has also uncovered several new polymorphisms in the coding region of the beta-spectrin gene which will be very useful for detecting loss of heterozygosity at the cDNA level and designating the beta-spectrin gene as the culprit one.

A 5' splice region G-->C mutation in exon 3 of the human beta-spectrin gene leads to decreased levels of beta-spectrin mRNA and is responsible for dominant hereditary spherocytosis (spectrin Guemene-Penfao).

We studied a family with autosomal dominant hereditary spherocytosis (HS) associated with a mild spectrin deficiency. Linkage analysis using two microsatellite markers (D14S63 and D14S271) very close to the beta-spectrin gene (SPTB) showed that HS co-segregated with alleles of these microsatellite markers and the linkage between the marker and HS was statistically significant. The presence of a beta-spectrin protein polymorphism (beta-spectrin Vay; A1880V) in trans of the HS allele was not itself deleterious, but allowed the detection of decreased membrane expression of the spherocytic beta-spectrin allele in two HS-affected subjects. Direct sequencing of the coding exons of the beta-spectrin gene in one affected subject showed the presence of a G-->C transversion at the terminal nucleotide of exon 3, which did not change the leucine codon 100 (CTG-->CTC). The presence of the mutation was confirmed by restriction enzyme digestion at the DNA level in all affected SH members of the family. The G-->C mutation severely reduced the utilization of the 5' splice site and resulted in aberrant mRNA splicing with intron 3 retention.

Heterogenous band 3 deficiency in hereditary spherocytosis related to different band 3 gene defects.

Among 80 hereditary spherocytosis (HS) kindreds studied using denaturing electrophoretic separation of solubilized eythrocyte membrane proteins, we recognized three prominent subsets: HS with isolated spectrin deficiency, HS with combined spectrin and ankyrin deficiency, and HS with band 3 deficiency These three subsets represent more than 80% of the HS kindreds studied. In this study, eight dominant HS kindreds with band 3 deficiency were investigated for band 3 mutations. In three of these kindreds, linkage analyses confirmed the band 3 gene as the culprit gene. In an attempt to identify the responsible mutations, denaturing gradient gel electrophoresis (DGGE) was used to explore the coding exons (exons 2-20) of band 3 gene. Five different mutations were found in the eight kindreds. In five kindreds we identified substitutions of highly conserved residues, positioned at boundaries of putative transmembrane segments: a C --> T substitution at codon 490 changed arginine (CGC) to cysteine (TGC) in three kindreds, a C --> T substitution at codon 837 changed threonine (ACG) to methionine (ATG) in two kindreds. In the sixth kindred a G deletion was found in a stretch of five G starting at position 1475, leading to a stop codon either at position 1527 or 1565. In the seventh kindred a T deletion at position 1600 resulted in a stop codon at position 1733 and in the last kindred a T deletion was identified at position 355, leading to a stop codon at position 447. The mutant transcript was present in HS patients bearing missense mutations, whereas only the normal transcript was found in HS patients with frameshift mutations. In the latter group the mean decrease in membrane band 3 content was significantly lower, leading to speculation that missense mutations may have some sort of dominant negative effect.

Epidemiological studies of spectrin mutations related to hereditary elliptocytosis and spectrin polymorphisms in Benin.

We studied an African population in Benin and discovered an unexpectedly high frequency (1.6%) of hereditary elliptocytosis (HE) among the 1447 subjects studied. In approximately two-thirds of HE individuals we identified molecular defects, primarily those in erythrocyte alpha-spectrin (dupL154, L260P and L207P mutations), as well as a novel mutation of erythrocyte beta-spectrin (beta-W2061R mutation). We also identified the genetic basis of a previously identified protein polymorphism of the alpha III domain of spectrin (R1331I mutation). The genetic background of HE in the African population was studied using a number of polymorphisms of the alpha-spectrin gene, including the alpha III domain polymorphism. These studies suggest that the HE mutations appear to have originated from separate genetic backgrounds in this population.

Search for the candidate genes in dominant hereditary spherocytosis using linkage analysis.

Hereditary spherocytosis (HS) is an inherited hemolytic anemia characterized by the presence of dense spherocytic red cells. In HS patients, red cell membrane protein gel electrophoresis has identified different subsets of abnormalities: isolated spectrin deficiency, combined spectrin and ankyrin deficiency, band 3 deficiency. To direct the search for the molecular defect in 9 families with dominant HS, we developed microsatellite markers specific for the membrane protein encoding genes possibly involved in HS (alpha- and beta-spectrin, ankyrin and band 3 genes) and genotyped each family. In 5 families with isolated spectrin deficiency, the beta-spectrin gene was designated as candidate. In one family with combined spectrin/ankyrin deficiency, only the ankyrin gene was not excluded, whereas in the 3 HS families with band 3 deficiency, only the band 3 gene was not excluded. This work allowed development of a reliable methodology to search for candidate genes in HS and showed the frequent involvement of the beta-spectrin gene in HS with isolated spectrin deficiency.

Molecular basis of clinical and morphological heterogeneity in hereditary elliptocytosis (HE) with spectrin alpha I variants.

The impaired ability of spectrin dimers to self-associate into tetramers is one of the most frequent defects associated with hereditary elliptocytosis (HE) and its more serious form, hereditary pyropoikylocytosis (HPP). We previously described four proteic variants of the spectrin (Sp) alpha I tryptic domain associated with the Sp dimer self-association defect (Sp alpha I/78, Sp alpha I/74, Sp alpha I/65, Sp alpha I/46 variants). Following the characterization of proteic variants, genomic molecular defects were identified and most of the mutations appeared to lie either in or near the self-association site, i.e. in the alpha I tryptic domain or in the beta I tryptic domain. The clinical severity of these different mutations varies considerably and ranges from asymptomatic to severe haemolytic disease such as in heterozygous HPP patients and in some homozygous HE patients. Studies of 113 patients from 61 HE families showed a correlation among parameters and showed which factors modulate the clinical expression of the molecular defect. Our analysis indicated that the clinical expression was directly correlated with the severity of the spectrin dimer self-association defect as evaluated by the increase in the Sp dimer percentage found in the 4 degrees C extract. A critical threshold of 40-50% of unassembled Sp dimer was determined; above that, patients exhibited severe haemolysis requiring splenectomy. The percentage of Sp dimer depends, in turn, on two factors: (i) the nature of the variant in relation to the position of the mutation versus the tetramerization site; (ii) the relative amount of mutant spectrin present in the membrane (ranging from 15% to 80% in heterozygous patients). As for the severity of haemolysis, the ghost mechanical stability to shear stress, as measured by ektacyometer, was also found to depend on the Sp dimer self-association defect. In contrast, the decrease in erythrocyte deformability was not related to the amount of unassembled Sp dimer but appeared to be correlated with the amount of mutant spectrin whatever the variant. Concerning erythrocyte morphology and the number of elliptocytes, the Sp alpha I/65 variant appears to be the most 'elliptocytogenic' variant, indicating that erythrocyte shape abnormality is not linked to the Sp dimer self-association defect.

Purification of erythrocyte protein 4.1 by selective interaction with inositol hexaphosphate.

Protein 4.1 is a multifunctional structural protein occupying a strategic position in the erythrocyte membrane. It is present in the erythrocyte membrane skeleton and in many nonerythroid cells. This report describes a novel method for purifying this protein based on its selective interaction with inositol hexaphosphate dimagnesium tetrapotassium salt. This interaction was discovered in the course of chromatography of high-salt extract of inside-out membrane vesicles on Procion orange MX-2R-Sepharose. The new procedure is simple and selective and produces protein 4.1 with better yield than that obtained with a previously published procedure. The purified protein 4.1 has the same immunoreactivity and the same alpha-chymotryptic digest profile as protein 4.1 purified by published methods and is fully functional in enhancing the interaction between F-actin and spectrin dimers.

Elliptocytosis-associated spectrin Rouen (beta 220/218) has a truncated but still phosphorylatable beta chain.

Spectrin Rouen (beta 220/218) is a novel variant, carrying a shortened beta chain with an apparent molecular weight of 218 kDa. It was detected in a French family. All affected members suffered from haemolytic hereditary elliptocytosis. As other shortened beta chain variants described before, the beta Rouen chain is truncated at its carboxyl terminus. Spectrin Rouen is associated with a defect in spectrin dimer self-association and with an abnormally high amount of the alpha I 74 kDa peptide following partial tryptic digestion. Dimer reconstitution experiments from normal and abnormal purified Sp subunits indicated that the increased alpha I 74 kDa fragment is induced by the altered beta chain. However, spectrin Rouen is different from other mutants with a truncated beta chain in several respects: its amount is low (less than 10%) and the spectrin dimer self-associated defect is mild. Critically, the beta Rouen chain has retained the ability of undergoing phosphorylation, even though it is modified in its C-terminal region. These results, compared to those obtained with beta 220/214 spectrin Le Puy and beta 220/216 spectrin Nice, allowed better localization of the beta chain sites that can be phosphorylated by a membrane-bound casein kinase.

Severe recessive poikilocytic anaemia with a new spectrin alpha chain variant.

A severe neonatal haemolytic anaemia was observed in a propositus from the West Indies. Frequent blood transfusions were required until complete splenectomy was carried out. Blood smears showed predominant poikilocytosis with spherocytes and microcytes as observed in hereditary pyropoikilocytosis. Erythrocytes were completely fragmented after incubation at 45 degrees C. The two asymptomatic parents had normal haematological profiles. The erythrocyte membrane electrophoretic patterns of the splenectomized propositus and her parents were normal. The propositus had a moderate defect in the spectrin (Sp) dimer self-association. Limited tryptic digestion of the propositus' Sp under standard conditions (0 degrees C, 20 h, enzyme-substrate ratio of 1/100) revealed an increased sensitivity to tryptic digestion. The major features detected by one- and two-dimensional electrophoresis gels of Sp tryptic digests were the absence of high molecular weight peptides from the Sp alpha II (48 kDa and 35 kDa peptides) and Sp alpha III (52 kDa peptide) domains with increased amounts of the lower molecular weight peptides from the Sp alpha II and Sp alpha III (29 kDa peptide and 47 kDa peptide) domains respectively. Kinetic studies of Sp tryptic digestion (10 min to 36 h) confirmed the increased tryptic susceptibility of Sp. Immunodetection with specific anti-alpha-chain domain antibodies showed that the highest molecular weight peptides from the alpha II and alpha III domains are released early in digestion, but disappear quickly, with an increase in their corresponding smaller peptides. The molecular weights of the peptides corresponding to the 48 kDa and 35 kDa peptides from the alpha II domain are slightly modified. Peptides from the alpha I and alpha IV domains showed no significant abnormalities. The Sps of both parents were normal. These results indicate that the patient has a novel Sp alpha chain defect, which is probably located in the region of the alpha II domain which adjoins the alpha III domain.

Hereditary pyropoikilocytosis and elliptocytosis in a white French family with the spectrin alpha I/74 variant related to a CGT to CAT codon change (Arg to His) at position 22 of the spectrin alpha I domain.

We describe a white French family in which 12 subjects presented with hereditary elliptocytosis (HE) or hereditary pyropoikilocytosis (HPP). Eight of these subjects were shown to be heterozygous for a spectrin (Sp) alpha I/74 variant, as demonstrated by analysis of partial tryptic digestion fragments of spectrin. This abnormal peptide pattern was associated with a decreased ability of Sp dimers to self-associate. In this kindred, in which four generations were available for study, the clinical expression varied from mild HE to HPP with an intermediate status of hemolytic HE. The severity of the disease appeared to be correlated both with the estimated amount of variant Sp (42% to 65%) and the excess of Sp dimers found in the membrane (30% to 51%, with a normal value of 3.7% +/- 1.6%). Reassociation studies using isolated Sp alpha and beta chains from an affected patient and an unaffected control subject showed that the Sp alpha I/74 Kd abnormal tryptic peptide resulted from a defect in the Sp alpha chain. Partial amino acid sequencing showed that the Sp alpha I/74 Kd peptide resulted from cleavage at lysine residue 42 of the Sp alpha I/80 Kd domain. Knowledge of the exon/intron organization of the human alpha Sp gene allowed us to amplify by the polymerase chain reaction the second exon of the alpha Sp gene in total cellular DNA of the HPP proposita. The amplified fragment was subcloned and sequenced. We found a G to A base substitution in the 22nd codon (CAT for CGT), which changes the normal arginine to a histidine. Hybridization of amplified DNAs with allele-specific oligonucleotides corresponding to the normal and mutant sequences confirmed the presence of the mutation in six other HE and HPP members of the family. The identification of this mutation at the DNA level confirmed the transmission of the same molecular defect in Sp through four generations but with different patterns of clinical expression.

Sp alpha I/78: a mutation of the alpha I spectrin domain in a white kindred with HE and HPP phenotypes.

Limited tryptic digestion of spectrin (Sp) from seven related individuals manifesting hereditary elliptocytosis (HE) or hereditary pyropoikilocytosis (HPP) phenotypes revealed the presence of a novel peptide with a molecular weight of 78 Kd and a concomitant decrease in the alpha I domain (80-Kd peptide), which is the domain involved in the dimer self-association process. Sp from the normal members of this white family exhibited a normal peptide pattern, as compared with controls. The abnormal peptide pattern was associated with a decreased ability of Sp dimer to self-associate. In this kindred in which three generations were available for study, the clinical manifestations were quite variable and ranged from the asymptomatic HE carrier state to hemolytic HE or to severe anemia requiring splenectomy. The severity of the disease appeared to be correlated both with the amount of mutant spectrin (31% to 69%) and with the excess of the Sp dimer found in the membrane (26% to 60%, compared with a normal value of 5.6% +/- 2.2%). Partial amino acid sequencing showed that the alpha I/78-Kd peptide resulted from cleavage at lysine residue 10 of the alpha I/80-Kd domain. Knowledge of the exon/intron structure of cloned genomic DNA encoding the alpha I domain allowed us to amplify in vitro a DNA fragment containing the third exon of the alpha-spectrin gene. The amplified fragment was subcloned and sequenced. A G to T transversion was found in the 39th codon (AGT for AGG), which changed the normal arginine to a serine. Hybridization of amplified DNAs with allele-specific oligonucleotides corresponding to the normal and mutant sequences confirmed the presence of the mutation in three other HE members of the family (the propositus mother, brother, and sister).

[Hereditary elliptocytosis in West Africa: frequency and repartition of spectrin variants]. / L'elliptocytose héréditaire en Afrique de l'Ouest: fréquence et répartition des variants de la spectrine.

Hereditary Elliptocytosis (HE) is a hemolytic disorder inherited as autosomal-dominant trait and characterized by elliptically shaped erythrocytes. Preliminary studies in France have showed a high proportion of HE patients of black extraction (West Africa and Antilles). In order to confirm this prevalence, we made a systematic search for HE in West Africa: Benin, Burkina Faso, Ivory Coast, Togo. The diagnosis of elliptocytosis was established by the observation of a high percentage (greater than 70%) of characteristic regular and symmetric elliptic red cells after fixation in 0.3% glutaraldehyde saline buffer. The diagnosis of HE was confirmed by cytological studies of related members and/or the discovery of a well defined molecular variant of spectrin, the main protein of erythrocyte membrane skeleton. We found: in Abidjan centre 6 HE out of 1,000 subjects representative of main ethnic groups; in Lome Centre 6 cases out of 750 subjects originated from the South or Central areas of Togo; in Cotonou Centre 5 cases out of 1,000 subjects originated from the South area of Benin; in Bobo Dioulasso centre 6 HE out of 700 subjects. From this multicentre studies HE appears roughly 10 times more frequent in West Africa than in Europe or USA where incidence was estimated at between 2.5 and 5 cases per 10,000. Tryptic digestion of spectrin revealed that: 10 patients from different ethnic groups have the most frequent variant found in our laboratory (21 kindreds) and named spectrin alpha I/65. Five cases originated from limited areas in the South of Benin and Togo and related to closed ethnic groups have the variant Sp alpha I/46.

Hereditary pyropoikilocytosis and elliptocytosis in a Caucasian family. Transmission of the same molecular defect in spectrin through three generations with different clinical expression.

Hereditary pyropoikilocytosis (HPP) is a severe hemolytic anemia characterized by a material instability of the red cell membrane leading to cell fragmentation. This fragility may be correlated with functional and structural defects of spectrin. Most HPP patients have been black. We now report three HPP patients from a Caucasian family, the proposita and her two maternal uncles. The proposita's mother and daughter presented mild type I hereditary elliptocytosis (HE), while the proposita's father was clinically and hematologically normal. Our studies revealed a defective ability of spectrin to self-associate, resulting in an excess of spectrin dimer in 4 degrees C extracts in the three HPP patients and to a similar extent in HE relatives. Limited tryptic digestion of spectrin showed a molecular variant in the alpha I domain as expressed by a decreased amount of 80,000-dalton peptide with a concomitant increase in the 74,000-dalton peptide. Investigations in the proposita's father revealed no abnormalities of the erythrocyte membrane. The co-transmission of HPP and HE phenotypes in the same lineage might suggest variability in the clinical expression of the same molecular defect and lead us to discuss the hypothesis of a double heterozygosity in HPP patients.

Prenatal diagnosis of hereditary elliptocytosis with molecular defect of spectrin.

Hereditary elliptocytosis (HE) is, in the heterozygous state, a common mild congenital hemolytic disease. In contrast, homozygous elliptocytosis is a severe transfusion-dependent hemolytic anemia. The major determinant of red cell membrane shape and stability is a two-dimensional proteinaceous meshwork named membrane skeleton. Spectrin, the most important protein of the membrane skeleton, is basically a heterodimer composed of alpha and beta chains. Within the membrane, spectrin dimers self-associate to form tetramers. In type I HE spectrin dimer self-association is defective and an excess of spectrin dimer is present in the patient's red cell membranes. The defective self-association is often correlated with an abnormality of the spectrin alpha chain which is depicted by limited tryptic digest of spectrin. In a family previously studied by us (Dhermy et al., 1984), the search for a spectrin defect in the red cells of the fetus of the pregnant mother was indicated for the following reasons: the diagnosis of heterozygous type I HE with the same spectrin variant had been made in the mother as well as in the father. Moreover, homozygous HE had been recognized in one of the children born two years previously with a persistent and severe transfusion dependent hemolytic anemia. Preliminary studies of normal fetal erythrocytes at twenty weeks gestation have shown that fetal and adult spectrin molecules are identical. The results obtained in the fetus at risk allowed us to diagnose type I HE (though elliptocytes were not present in the blood) for the following reasons: (i) erythrocyte deformability was decreased (ii) spectrin self-association was defective with an excess of dimer species in the membrane (iii) limited tryptic digest of spectrin showed the same abnormal pattern as seen in the heterozygous mother, with a decrease in the 80,000-dalton peptide and a concomitant increase in the 74,000-dalton peptide. The heterozygous state, strongly suspected on the tryptic digest pattern of fetal spectrin, was confirmed when the mother gave birth to a baby who did not have hemolytic anemia during the first 18 months of life.

Abnormal electrophoretic mobility of spectrin tetramers in hereditary elliptocytosis.

Hereditary elliptocytosis (HE) is a genetically determined disorder of the red cell membrane. The main protein which composes the proteinaceous skeleton of the membrane is an elongated molecule named spectrin which is a heterodimer composed of two chains, alpha and beta. In the membrane spectrin dimers are associated head-to-head to form tetrameric structures. We and other authors have reported that spectrin studied from many HE patients exhibited a dimer self-association defect (type I HE). A mutation in the head of the spectrin alpha chain was mostly found in type I HE. We have previously described one of the three known spectrin pathological variants shown on mild tryptic digest pattern. This variant was characterized by the appearance of an abnormal 65,000-dalton peptide (Sp alpha I/65). Using nondenaturating gel electrophoresis, we describe in this paper a triplicated pattern of the spectrin tetramer bands which is found in heterozygous HE cases displaying the 65,000-dalton variant. Study of a homozygous case allowed us to characterize the electrophoretic mobility of the abnormal symmetrical spectrin tetramer (alpha 2I/65-beta 2) and to study the correlation between the fraction of this abnormal symmetrical tetramer found in heterozygous patients and the amount of the 65,000-dalton peptide observed in spectrin tryptic digests.

Double inheritance of an alpha I/65 spectrin variant in a child with homozygous elliptocytosis.

Hemolytic anemia with red cell fragmentation, poikilocytosis, and elliptocytosis was discovered in a 6-week-old black infant. Both parents and a brother of the propositus had compensated mild Hereditary Elliptocytosis (HE). Elliptocytosis was prominent in the proband's father with the presence of numerous rod-shaped cells whereas, in the proband's mother, elliptocytosis was less marked and cells were less elongated than in the father. The proband's red cells fragmented at 45 degrees C instead of 49 degrees C for control cells. Both the parents' and brother's red cells fragmented at 47 degrees C. The deformability of the proband's red cells was markedly reduced when measured with the ektacytometer; the red cells of both the proband's parent and brother exhibited an intermediate decrease in red cell deformability. Spectrin self-association was defective in the propositus as well as in his parents and brother. Limited tryptic digestion of the proband's spectrin, followed by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), revealed a complete absence of the normal 80,000 dalton alpha I domain and the presence of an abnormal 65,000 dalton peptide. Two-dimensional isoelectric focusing/SDS-PAGE of limited tryptic digests of spectrin from both the proband's parents and brother revealed a decrease in the normal 80,000 alpha I domain and the presence of the 65,000 peptide variant. On the basis of biochemic studies performed on the patients' spectrin, we concluded that the proband had homozygous HE, having inherited the structural defect of spectrin present in a heterozygous state in each of his parents. On a clinical and morphologic level, homozygous HE imitates two other forms of congenital hemolytic anemia associated with a spectrin self-association defect: HE with pycnocytosis in infancy and Hereditary Pyropoikilocytosis. This report emphasizes the importance of confronting clinical and rheological as well as biochemical investigations in studying and discussing different entities.

Hereditary elliptocytosis: clinical, morphological and biochemical studies of 38 cases.

We report clinical, morphological and biochemical studies performed on 38 cases of hereditary elliptocytosis (HE). The major determinant of membrane shape and stability is a proteinaceous meshwork named membrane skeleton, composed mainly of spectrin, actin, protein 4.1 and ankyrin. Spectrin is a heterodimer composed of two chains alpha and beta. Two spectrin dimers associate head to head to form a tetramer. Spectrin tetramers are cross-linked by actin and protein 4.1 to form the skeletal meshwork. We observed two types of membrane defects in the 38 patients studied: 24 patients (13 kindreds) exhibited spectrin self-association defect (type I HE) and 14 patients (6 kindreds) displayed deficiency in protein 4.1. A mutation in the spectrin chain was mostly found in the cases of type I HE. These mutations were depicted on tryptic digest patterns of spectrin. Three pathological variants were thus identified and characterized by the appearance of an abnormal peptide, with a molecular weight of either 74,000 or 65,000, or 46,000 daltons. In one family, the spectrin self-association defect was related to a shortened spectrin beta chain. Deficiency in protein 4.1 was found in 14 patients by means of polyacrylamide gel electrophoresis of red cell membranes. In 12 heterozygous cases of HE, the decrease in the amount of protein band 4.1 was between 40% and 50%. In 2 homozygous HE cases, protein band 4.1 was totally absent. Immunoelectrotransfer blots of red cell membrane proteins using a monoclonal antibody against protein 4.1 allowed characterization of additional bands in two families. In some cases variations in the amount of glycophorin C were noticed. Comparative studies of the two types of membrane abnormalities in HE clearly showed the absence of correlation between clinical, morphological phenotypes, and specific molecular etiology. However, all HE patients with protein 4.1 deficiency were caucasian and most of the type I HE were of black extraction. A study of red cell deformability using an ektacytometer revealed that the cell deformability under isotonic conditions was decreased in all HE patients. When the deformability was studied as a function of the osmolality of the suspending medium, the curve obtained had a trapezoid shape. This typical profile appeared to be constant in type I HE. We showed that the molecular abnormalities of the spectrin alpha chain, found in most type I HE correlated well with the functional spectrin defect.(ABSTRACT TRUNCATED AT 400 WORDS)