Occurrence of spectrin-like protein in Y-1 adrenal tumor cells

With the aid of two monospecific antibodies raised in rabbits (antimouse erythrocyte spectrin and antimouse brain spectrin), the presence of a spectrin-like protein was demonstrated in mouse adrenal tumor (Y-1) cells. Y-1 cells contain two large polypeptides, with mol wt characteristic of nonerythroid spectrin alpha- and beta-subunits (240,000 and 235,000). When proteins from plasma membranes of Y-1 cells were electrophoretically transferred to a nitrocellulose membrane, two polypeptides with mol wt of 240,000 and 225,000 were specifically stained with antimouse erythrocyte (rbc) spectrin immunoglobulin G (IgG). The rbc spectrin antibody was used to immunoprecipitate Y-1 spectrin from a neutral detergent (physiological ionic strength) cell extract. The 240,000 (alpha)- and 235,000 (beta)-dalton polypeptides were immunoprecipitated in a 1:1 molar ratio, despite the fact that the antibody recognizes only the alpha-subunit. Two-dimensional chymotryptic peptide-mapping analysis indicated that the 240,000- and 235,000-dalton subunits of Y-1 adrenal tumor spectrin are structurally unique and share limited homology with mouse rbc spectrin alpha- and beta-subunits, but are nearly identical to the mouse brain spectrin 240,000-dalton alpha-subunit and 235,000-dalton beta-subunit. Indirect immunofluorescence with anti-rbc or antibrain spectrin IgG and goat antirabbit IgG conjugated with rhodamine demonstrated intense staining at the plasma membrane and throughout the cytoplasm of Y-1 cells, with little staining within the nucleus.     

Ischemic loss of sarcolemmal dystrophin and spectrin: correlation with myocardial injury.

Sarcolemmal blebbing and rupture are prominent features of irreversible ischemic myocardial injury. Dystrophin and spectrin are sarcolemmal structural proteins. Dystrophin links the transmembrane dystroglycan complex and extracellular laminin receptors to intracellular F-actin. Spectrin forms the backbone of the membrane skeleton conferring an elastic modulus to the sarcolemmal membrane. An ischemic loss of membrane dystrophin and spectrin, in ischemically pelleted rabbit cardiomyocytes or in vivo 30--45 min permanently ischemic, LAD-ligated hearts, was detected by immunofluorescence with monoclonal antibodies. Western blots of light and heavy microsomal vesicles and Triton-extracted membrane fractions from ischemic myocytes demonstrated a rapid loss of dystrophin coincident with sub-sarcolemmal bleb formation, subsequent to a hypotonic challenge. The loss of spectrin from purified sarcolemma of autolysed rabbit heart, and both isolated membrane vesicles and Triton solubilized membrane fractions of ischemic cardiomyocytes correlated linearly with the onset of osmotic fragility as assessed by membrane rupture, subsequent to a hypotonic challenge. In contrast to the ischemic loss of dystrophin and spectrin from the membrane, the dystrophin-associated proteins, alpha-sarcoglycan and beta-dystroglycan and the integral membrane protein, sodium-calcium exchanger, were maintained in the membrane fraction of ischemic cells as compared to oxygenated cells. Preconditioning protected cells, but did not significantly alter ischemic dystrophin or spectrin translocation. This previously unrecognized loss of sarcolemmal dystrophin and spectrin may be the molecular basis for sub-sarcolemmal bleb formation and membrane fragility during the transition from reversible to irreversible ischemic myocardial injury.     

Goblin (ankyrin) in striated muscle: identification of the potential membrane receptor for erythroid spectrin in muscle cells.

Goblin , a high molecular weight (Mr, 260,000) polypeptide of avian erythrocyte plasma membranes characterized by hormone-dependent phosphorylation, is shown by a variety of criteria to be the avian equivalent of ankyrin, the membrane attachment protein for spectrin; a polyclonal monospecific goblin antiserum reacts specifically with ankyrin from mammalian erythrocyte ghosts; goblin and ankyrin have highly homologous, although distinct, two-dimensional peptide maps; and, in reconstitution experiments, goblin binds to spectrin and band 3 in approximately the same molar ratio as ankyrin. Immunoautoradiography and immunofluorescence with goblin antiserum reveal that a serologically related polypeptide (Mr, 235,000) is present in highly purified membrane fractions of mammalian myocardium and in whole extracts of adult chicken cardiac and skeletal muscle-nonerythroid tissues which express predominantly the erythroid (alpha beta-) spectrin phenotype. Erythroid spectrin and goblin (ankyrin) are codistributed in skeletal muscle at the sarcolemma as discrete foci adjacent to the Z lines and, in pectoral muscle, also at the periphery of the Z discs. These spatial relationships indicate that goblin and spectrin in muscle cells form a structural framework that serves as the attachment site for the myofiber at the level of the Z line on the sarcolemma.     

Expression of the beta subunit of spectrin in nonerythroid cells.

Antibodies raised against electrophoretically purified chicken erythrocyte beta subunit of spectrin, called "beta-spectrin," have been used to demonstrate the presence of an immunoreactive form of this polypeptide in nonerythroid tissues. Immunoautoradiography shows that, in chicken erythrocytes, this antiserum reacts with beta-spectrin (Mr 220,000) and another polypeptide (Mr 230,000) that, by two-dimensional tryptic peptide analysis, shows extensive homology with beta-spectrin but not with the alpha subunit of spectrin, called "alpha-spectrin." Immunoautoradiography and immunoprecipitation of various chicken tissues with this antiserum shows that either one variant or both variants of beta-spectrin are expressed. Indirect immunofluorescence reveals that the antiserum reacts with a plasma membrane-associated component of erythroid and some nonerythroid cells. Particularly strong fluorescence is observed in skeletal and cardiac muscle cells where beta-spectrin appears to form a grid-like network along the inner surface of the sarcolemma. The noncoordinated distribution of alpha- and beta-spectrin variants indicates that their expression may be tailored to the functional requirements of the plasma membrane in different cells.     

Cytoplasmic gamma-actin contributes to a compensatory remodeling response in dystrophin-deficient muscle

Dystrophin mechanically links the costameric cytoskeleton and sarcolemma, yet dystrophin-deficient muscle exhibits abnormalities in cell signaling, gene expression, and contractile function that are not clearly understood. We generated new antibodies specific for cytoplasmic gamma-actin and confirmed that gamma-actin most predominantly localized to the sarcolemma and in a faint reticular lattice within normal muscle cells. However, we observed that gamma-actin levels were increased 10-fold at the sarcolemma and within the cytoplasm of striated muscle cells from dystrophin-deficient mdx mice. Transgenic overexpression of the dystrophin homologue utrophin, or functional dystrophin constructs in mdx muscle, restored gamma-actin to normal levels, whereas gamma-actin remained elevated in mdx muscle expressing nonfunctional dystrophin constructs. We conclude that increased cytoplasmic gamma-actin in dystrophin-deficient muscle may be a compensatory response to fortify the weakened costameric lattice through recruitment of parallel mechanical linkages. However, the presence of excessive myoplasmic gamma-actin may also contribute to altered cell signaling or gene expression in dystrophin-deficient muscle.     

Changes in the cytokeratin intermediate filament cytoskeleton associated with Mallory body formation in mouse and human liver

Mouse and human extracted liver tissue were examined by indirect immunofluorescent staining and transmission electron microscopy in order to study the alteration of cytokeratin intermediate filaments associated with Mallory body formation. Frozen sections of griseofulvin-fed mouse liver and human liver of primary biliary cirrhosis and primary sclerosing cholangitis were extracted by Triton X-100 and nuclease. Indirect immunofluorescent staining was performed by using anticow hoof keratin antibody for mouse liver and anti-human epidermal keratin antibody (AE1 and AE3) for human liver. Transmission electron microscopy was also performed on extracted and critical point-dried samples. The griseofulvin-fed mouse hepatoma cells showed four different types of altered staining pattern based on the indirect immunofluorescent staining of the cytoplasm and Mallory bodies: Type I--cytoplasm(+), Mallory body(-); Type II--cytoplasm(+), Mallory body(+); Type III--cytoplasm(-), Mallory body(+), and Type IV--cytoplasm(-), Mallory body(-). Types I and III were predominant, however, some hepatoma cells which contain Mallory bodies revealed bright cytoplasmic staining (Type II). The nuclear rims were strongly stained. In human liver, AE1 stained Mallory bodies and the bile duct epithelium intensely, but did not stain normal hepatocytes. AE3 mainly stained Mallory bodies and normal hepatocytes, but also stained bile duct epithelium weakly. Indirect immunofluorescent staining for human liver showed the same staining patterns as found in mouse liver, except that Type IV was not observed. Although many hepatocytes which contained Mallory bodies did not react with either of these two antibodies (Type III), some of the hepatocytes were stained, not only with AE3, but also with AE1 (Type II).(ABSTRACT TRUNCATED AT 250 WORDS)     

Voltage-gated K(+)Channel, Kv4.2, localizes predominantly to the transverse-axial tubular system of the rat myocyte

Kv4.2 subunit, a member of K(+)channel gene family, is considered to play a major role in the formation of depolarization-activated transient outward K(+)current channels in the mammalian heart. We investigated the subcellular localization of Kv4.2 subunit in the rat heart by immunofluorescence and immunoelectron microscopy. In atrial cells, Kv4.2 immunofluorescent staining was intensely observed in the peripheral sarcolemma and the intercalated disks, but seldom found in transverse tubules, which are rare or absent in atrial cells. In ventricular cells, the labeling of Kv4.2 immunofluorescent staining was found throughout the entire cell membrane, and the staining was stronger in the transverse-axial tubular system than in the peripheral sarcolemma. Correlative immunoconfocal and immunoelectron microscopy using FluoroNanogold confirmed that Kv4.2 distributed in the transverse-axial tubular system including the longitudinally oriented axial tubules. Immunogold electron microscopy of ultrathin cryosections revealed that Kv4.2 was distributed on the plasma membranes of the T-tubules. The extensive distribution of Kv4.2 on the entire cell membrane of myocytes would provide rat myocardial cells with a large capability for the transport of K(+)ions through the channels in the repolarization phase.     

The membrane hypothesis of duchenne muscular dystrophy: Quest for functional evidence

Summary (1) The location of dystrophin in normal muscle, its molecular structure and associations, characterize it as a component of the submembrane cytoskeleton. When dystrophin is missing the cystoskeleton will therefore be defective, and it has been supposed that this renders the muscle membrane more vulnerable to mechanical damage. With the discovery of animal strains lacking in dystrophin, this hypothesis has been put to experimental tests. Contradictory results have been obtained by workers using different exercise regimens and different indices of fibre damage.(2) Direct measurements of the tensile strength of the membrane have been made on patches of cultured myotubes or isolated muscle fibres, and on sarcolemmal vesicles by pipette aspiration. Neither method has revealed a difference in the tensile strength between normal and dystrophic membrane. The most plausible explanation is that the tensile strength of the membrane is a property more of the lipid bilayer than of the cytoskeleton.(3) In another experimental approach tensile membrane stress has been produced by exposing isolated muscle fibres and myotubes in culture to hypotonic solutions. In such experiments fibres and myotubes lacking dystrophin have been found to lyse more readily than do normal ones. This difference does not conflict with the similarity in tensile strength of normal and dystrophic fibre membranes noted above. Rather, the predisposition to osmotic lysis of dystrophic fibres and myotubes may signify a lower ratio of membrane surface to cell volume, perhaps as a result of loss of some of the spare membrane normally possessed by skeletal muscle fibres and myotubes.(4) In red blood cells the membrane cytoskeleton functions to maintain membrane deformability and stability. Deficiency in spectrin, the main cytoskeletal component, predisposes red cells to cytoskeletal rupture and membrane loss when they experience shear stress. Skeletal muscle fibres, especially long fibres contracting eccentrically, are susceptible to shear stress as a result of uneven contraction along their length. In that event, fibres lacking dystrophin may similarly shed membrane more readily.     

Immunoflourescent staining of cytoplasmic and spindle microtubules in mouse fibroblasts with antibody to tau protein.

tau protein isolated from porcine brain microtubules was further purified by electrophoretic elution from polyacrylamide gels and used to prepare antisera in rabbits. The antiserum to tau specifically stains mitotic spindles and a filamentous network within mouse fibroblasts when the indirect immunofluorescence technique is used. The staining of the filamentous network and mitotic spindles is identical to that observed when cells are treated with antiserum prepared against electrophoretically purified tubulin. The filamentous network observed with either serum is sensitive to Colcemid. Absorption of anti-tau serum with electrophoretically purified tubulin does not remove the immunofluorescent staining of the mitotic spindle, whereas absorption with electrophoretically purified tau protein does. Conversely, absorption of antitubulin serum with tubulin eliminates its ability to stain the mitotic spindle, whereas absorption with tau has no effect. We conclude that tau protein and tubulin are antigenically distinct proteins and that tau is an integral part of microtubules in vivo. These results also provide evidence that tau protein, or an antigenically related protein, is associated with microtubules not only in brain but also in other cell types.     

The mechanism of thrombin-induced platelet factor 4 secretion

We have measured thrombin-induced secretion of platelet factor 4 antigen (PF4) and simultaneously followed its intracellular translocation by immunofluorescence. In permeable resting platelets, speckled intracellular immunofluorescent staining for PF4 was observed. Addition of thrombin to washed platelets at 22 degrees C resulted in secretion of PF4 and formation of large (approximately 0.5 micrometer) immunofluorescent masses. These masses moved to the cell periphery during secretion and were virtually absent at the conclusion of secretion. Ultrastructural examination of thrombin-treated platelets revealed vacuoles corresponding in size, shape, and time of occurrence to the large immunofluorescent masses of PF4. These vacuoles contained PF4 by immunoferritin staining of frozen thin sections; they therefore appear to represent the ultrastructural counterpart of the large PF4 masses. When intact cells were stained for PF4 after thrombin addition, only 5.6% of the large masses stained. Thus, during secretion, PF4 antigen is consolidated into large closed pools that appear as vacuoles in the electron microscope.     

Expression of spectrin in normal and malignant erythropoiesis

Spectrin is a major constituent of the erythrocyte membranoskeleton. The occurrence of spectrin during normal and malignant erythropoiesis was investigated by immunofluorescence using a monospecific rabbit anti-human spectrin antiserum. The expression of spectrin was correlated to the presence of glycophorin A, which is an early and specific marker for erythroid cells. The expression of spectrin during normal erythroid differentiation coincided with that of glycophorin A. Both markers were already present in the proerythroblasts. Spectrin was also found in leukaemic cells from patients with acute erythroleukaemia and erythroid blast crisis of chronic myelogenous leukaemia. In a large panel of human haematopoietic cell lines only those with erythroid phenotype (K 562 and HEL) stained positively for spectrin. It is concluded that spectrin appears early in the erythroid maturation. It is expressed both in normal and malignant erythroid precursors. Spectrin can be used as a marker for erythroid blasts in the diagnosis of erythroleukaemias.     

Dual effects of caspase-1, interleukin-1 beta,tumour necrosis factor-alpha and nerve growth factor receptor in inflammatory myopathies

OBJECTIVE: To analyse the expression of factors potentially involved in skeletal muscle degeneration and regeneration in dermatomyositis (DM), systemic sclerosis (SSc), polymyositis (PM), systemic lupus erythematosus (SLE) and non-inflammatory myopathies. METHODS: Immunohistochemical staining of skeletal muscle biopsies (10 DM, 10 SSc, 10 PM, 10 SLE, 10 non-inflammatory myopathies) for tumour necrosis factor-alpha (TNF-alpha), interleukin-1 beta (IL-1 beta), activated caspase-1, pan-macrophage marker CD68, inducible nitric oxide synthase (NOS2) and nerve growth factor receptor (NGFR). TechMate staining robot and biotin-streptavidin protocol were used. RESULTS: Expression of TNF-alpha, IL-1 beta, caspase-1 and NOS2 was found in the cytoplasm and sarcolemma of dystrophic skeletal muscle fibres. TNF-alpha and IL-1 beta immunoreactive profiles were faint and few and close to satellite nuclei-containing regenerating muscle fibres both in inflammatory and non-inflammatory myopathies. NGFR expression was found in comparable areas. In non-inflammatory inherited myopathies more nuclei were caspase-1 immunoreactive whereas caspase-1 expression was rarely seen in inflammatory myopathies, implying regeneration of the affected muscle fibres. CONCLUSION: Prominent expression of the proinflammatory factors TNF-alpha, IL-1 beta and NOS2 and caspase-1 is associated with muscle fibre damage, albeit when expressed to a low degree these factors may, like NGFR, contribute to muscle regeneration and healing.     

Isolation of calcifiable vesicles from aortas of rabbits fed with high cholesterol diets

Advanced arterial wall calcification in atherosclerosis imposes a serious rupturing effect on the aorta. However, the mechanism of dystrophic calcification linked to hyperlipidemia, that causes atherosclerosis remains unknown. Emerging morphological and biochemical evidence reveals that calcifiable vesicles may have a role in plaque calcification. To determine whether a high cholesterol diet can induce arterial calcification and produce or activate calcifiable vesicles in aortas, a rabbit model was used. After 2 months of daily high lipid feeding (supplemented with 2% cholesterol and 6% peanut oil), typical atherosclerotic lesions developed. However, the mineral, if present in aortas, was insufficient to be detected by Fourier transform-infrared spectroscopy (FT-IR) or alizarin red staining, indicative of a non-calcifying stage of atherosclerosis. Small segments of thoracic aortas were digested in a crude collagenase solution to release calcifiable vesicles. Vesicles were also isolated from normal aortas as control to consider the possibility that membrane vesicles may be produced by crude collagenase digestion, which could cause the degradation of some cells. Calcifiable vesicles were precipitated at 300,000 x g after subcellular particles were removed by centrifugation at 30,000 x g. Calcifiability of isolated vesicles was then tested using calcifying media containing physiological levels of Ca2+ and Pi and 1 mM ATP. Electron microscopic observations showed that the isolated vesicles were heterogeneous in size and shape and capable of depositing electron dense particles. Fourier transform infrared spectroscopic analysis of the deposited particles revealed the presence of an amorphous mineral phase. The spectroscopic mineral to matrix ratios, related to the amount of mineralization, indicated that vesicles from cholesterol-fed rabbits produced more minerals than control vesicles obtained from the normal aortas. Alizarin red staining for mineral further demonstrated substantially higher calcifiability of the experimental vesicles. A 3-5 h exposure of the vesicles to calcifying media caused significant deposition of 45Ca and 32Pi in a vesicle protein-concentration dependent manner. Similar to previously reported observations with human atherosclerotic aorta vesicles, rabbit vesicles were enriched in ATP-hydrolyzing enzymes including Mg2+- or Ca2+-ATPase and NTP pyrophosphohydrolase that are implicated in normal and pathological calcification. Altogether, these observations suggest that accumulation of the released calcifiable vesicles, as a result of high cholesterol diets, may have a role in dystrophic calcification in hyperlipidemia-related atherosclerosis.     

Ultracentrifugal analysis of the junction complexes of the red cell membrane cytoskeletal network: application to hereditary spherocytosis and metabolically depleted cells

Summary A method has been developed for the assessment of the number of spectrin dimer units associated with each actin protofilament junction, in the membrane cytoskeletal network (i.e. the degree of branching) of the red cell. Ghosts are first exposed to elevated temperature at low ionic strength to dissociate some 65% of the spectrin tetramers (that link the network junctions) into dimers, without causing their release from the actin filaments. Non-ionic detergent is then added to solubilize the membrane itself with its intrinsic proteins, so as to liberate the cytoskeletal material, and the mixture is immediately examined in the analytical ultracentrifuge. The predominent components observed are isolated junctions (20 S), free spectrin dimers and the residual undissociated cytoskeletal material, with very minor components, probably corresponding to mutiple junctions, linked by spectrin tetramers. The junction boundary is homogeneous within the accuracy of measurement and is taken to correspond to a complex containing six spectrin dimers, known to predominate in situ. About 17% of the total network is liberated in this form and 12% as free spectrin dimers. In hereditary spherocytosis both the size of the junction complex (as reflected by its sedimentation coefficient) and the proportion of the complex and of free spectrin liberated are indistinguishable from normal values. We conclude that the reported deficit of spectrin in hereditary spherocytosis is not reflected by a lower degree of branching of the network, and, if the membrane area is not correspondingly reduced, this must mean that the junctions are more widely spaced and the spectrin tetramers therefore more extended. In metabolically depleted cells, in which the cytoskeletal proteins are known to be extensively dephosphorylated, there is no change in the sedimentation pattern and thus no detectable loss of spectrin from the junctions or weakening in the cohesion of the cytoskeletal network.     

Pathology of skeletal muscle in mixed connective tissue disease.

To characterize the pathology of muscle involvement in mixed connective tissue disease (MCTD), skeletal muscle biopsies from 13 patients with MCTD were examined by routine light microscopy, histochemistry, and direct immunofluorescence. The histologic and histochemical changes observed corresponded closely to changes seen in idiopathic polymyositis and the myopathy associated with systemic lupus erythematosus. Eight of 13 cases examined by direct immunofluorescence demonstrated immunoglobulin deposition either within normal appearing vessels, within normal fibers, around or on the sarcoplasmic membrane, or within the perimysial connective tissue. The histologic findings support Sharp's observation of the high incidence of focal inflammatory lesions in skeletal muscle biopsies of patients with MCTD. Immunoglobulin deposition in these muscle biopsies suggests an immunologic basis for the muscular symptomatology in MCTD.     

Localization of the neurofilament protein in neuroblastoma cells by immunofluorescent staining.

Neurofilament protein (54,000-56,000 daltons) has been localized in murine neuroblastoma cells by indirect immunofluorescent staining with antisera to purified calf brain neurofilament protein. In some cells with only short processes, specific staining of fibrous material was present in the perinuclear region while in other cells similar fibers, coiled to varying degrees, were present in other regions of the cytoplasm. In cells with longer processes a stained fiber extended throughout each process. The staining pattern observed followed the distribution of bundles of 100 A filaments as determined by electron microscopy. The fibers did not stain with antisera to tubulin or tropomyosin. The observations reported strongly indicate (i) that neurofilament protein isolated from calf brain is antigenically related to a component of the bundles of 100 A filaments in neuroblastoma cells, and (ii) that the neurofilament protein is an integral part of bundles of 100 A filaments in neuroblastoma cells, while neither tubulin nor tropomyosin is present in these bundles.     

Pathology of skeletal muscle in mixed connective tissue disease

To characterize the pathology of muscle involvement in mixed connective tissue disease (MCTD), skeletal muscle biopsies from 13 patients with MCTD were examined by routine light microscopy, histochemistry, and direct immunofluorescence. The histologic and histochemical changes observed corresponded closely to changes seen in idiopathic polymyositis and the myopathy associated with systemic lupus erythematosus. Eight of 13 cases examined by direct immunofluorescence demonstrated immunoglobulin deposition either within normal appearing vessels, within normal fibers, around or on the sarcoplasmic membrane, or within the perimysial connective tissue. The histologic findings support Sharp's observation of the high incidence of focal inflammatory lesions in skeletal muscle biopsies of patients with MCTD. Immunoglobulin deposition in these muscle biopsies suggests an immunologic basis for the muscular symptomatology in MCTD.     

Secretion of lipoprotein-X by perfused livers of rats with cholestasis.

The major abnormal plasma lipoprotein of cholestasis (LP-X) was isolated from blood plasma and from perfusates of isolated livers of rats with biliary obstruction. In both cases LP-X was composed mainly of about equimolar parts of phospholipids and unesterified cholesterol; the small protein component was primarily the arginine-rich apolipoprotein. By electron microscopy, LP-X appeared as a unilamellar liposome (690 A mean diameter, range 400-1000 A) with the trilaminar staining image typical of phospholipid bilayers. Extensive block staining of cholestatic livers for 48 hr with warmed uranyl acetate (37 degrees) permitted the visualization of vesicles indistinguishable from LP-X within hepatic parenchyma. These trilaminar-staining vesicles occurred predominantly within bile canaliculi. They also were seen in nearby cytoplasmic vacuoles or invaginations between hepatocytes and in the space of Disse. Similar vesicles were not seen in the endoplasmic reticulum or Golgi cisternae. These observations raise the possibility that the vesicles are formed within bile canaliculi and are transported from the canaliculi to the space of Disse within pinocytotic vacuoles.     

Red cell membrane protein abnormalities in hereditary spherocytosis in Brazil

Summary. We studied 14 kindred and nine unrelated patients from southeastern Brazil with the typical form of hereditary spherocytosis. Diagnosis was made on the basis of clinical features, presence of spherocytes on the peripheral blood smears and an abnormal osmotic fragility test. By densitometric tracing of SDS-PAGE stained by Coomassie blue, we detected isolated deficiency of spectrin in 39% of our patients, combined spectrin and ankyrion deficiency in 13% and deficiency of band 3 in 13%. One of our patients presented ankyrin deficiency without spectrin reduction. Our data suggest that, despite ethnic differences among the Brazilian and European or North-American populations, these biochemical abnormalities in HS patients may be similar.