Studies on gastric mucosal IgA: separation of immunoglobulin rich fraction from gastric mucoproteins.

Human gastric mucosal scrapings were subjected to fractionation on an isopycnic CsCl gradient. Immunoglobulin A was found between the 5th and 10th ml from the top of the tube. (Total volume 12ml). After two-fold fractionation the combined IgA containing fraction accounted for 4%–7% of the total carbohydrate content of the original gastric mucosal scrapings. Gas liquid chromatography of sugars showed the fraction to be enriched in Mannose and N-Acetyl glucosamine. The total carbohydrate content of the material was 5.5%–7% by weight. Immunodiffusion against specific anti Secretory component serum failed to demonstrate the presence of the secretory component in this fraction. It is concluded that gastric mucosal IgA, which appears to differ from a typical sIgA in lacking the characteristic secretory component activity, can be separated from the carbohydrate-rich gastric mucoproteins by CsCl fractionation. This indicates the absence of covalent bonding between IgA and the mucoproteins of gastric mucus.     

Reduced secretory antibody response to live attenuated measles and poliovirus vaccines in malnourished children.

Serum and nasopharyngeal IgA antibody levels were estimated in 20 malnourished children and 20 matched healthy controls after immunization with a single dose of live attenuated measles or poliovirus vaccine. Seroconversion and serum neutralizing antibody titres were comparable in the two groups. Secretory IgA antibody was detected significantly less often in undernourished children; the time of its first appearance was delayed-and its maximum level was significantly lower. Impaired secretory antibody response in malnourished children may contribute to slow inadequate recovery from viral and enterobacterial infections and predispose to lifethreatening complications.     

Secretory IgA is a component of rabbit lung surfactant

Secretory IgA is a major protein component of rabbit lung surfactant purified by NaBr density gradient centrifugation from endobronchial lavage and minced lung tissue. Secretory IgA was found in both surfactant and non-surfactant fractions obtained from endobronchial lung washings. By contrast in minced-lung washings, which are not contaminated with proteins from the upper respiratory tree, secretory IgA is prominent only in the surfactant fraction. These findings indicate that in rabbit lung secretory IgA is present in the alveoli and is intimately associated with the surfactant system.     

Humoral immunity in malnutrition

Malnutrition affects the humoral immune system in diverse fashions. B lymphocyte subpopulations, serum IgG, and IgA levels, and immunoglobulin synthesis and metabolism are usually normal or increased. Hypogammaglobulinemia may occur in very young, severely malnourished infant. Although usually normal, deficient antibody responses to injected antigens are occasionally present, depending on the severity of the malnutrition. Serum IgE levels are usually high in malnutrition, probably due both to the increased incidence of intestinal parasites and to the lack of T cell control of IgE. Despite these high IgE levels, allergy is unusual. Secretory IgA levels in the respiratory and gastrointestinal (GI) fluids are generally decreased, as are secretory IgA antibody responses. This local antibody deficiency may increase GI permeability, stimulate immune complex formation, and result in the formation of IgG food antibodies. Breast milk secretory IgA levels are equivalent in malnourished mothers but because of lessened milk volume, the total amount of secretory IgA delivered to their offspring is diminished. Complement levels are somewhat diminished in the presence of malnutrition with a resultant opsonic deficiency. Although these B cell system aberrations undoubtedly contribute to the enhanced susceptibility to infection of malnourished patients, they are usually less severe than are concomitant T cell deficiencies.     

Secretory IgA in Urinary Tract Infections

Secretory IgA, measured by radial immunodiffusion, was compared in the urine of children with chronic and recurrent non-obstructive urinary tract infections with that in normal children. IgA, IgG, and IgM were also measured. Absent and low levels of IgA(s) were found in both groups; however, the mean levels of IgA(s) were significantly higher in the infected group compared with normals—3·3 to 0·78 mg./24 hours, respectively. Secretory IgA was found to be locally produced in the bladder. It is suggested that IgA(s) levels reflect an antibody response to infection.     

Simplified method for purification of colostrum to obtain secretory component of immunoglobulin A, using secretory component as a reference protein in tracheal aspirate fluid

Many studies employ bronchoalveolar lavage fluid for assessment of biologically active substances secreted from the lung. However, investigators continue to search for a useful reference standard to correct for the inevitable but variable degree of dilution of this fluid. The glycoprotein, soluble secretory component of IgA, may serve as a valid reference protein. We report a simplified method for the purification of secretory component from colostrum. Soluble secretory component was isolated from human colostrum using serial centrifugation, size-exclusion fractionation and ion-exchange chromatography. Secretory component rich fractions were assayed by enzyme immunoassay. They were also evaluated for total amino acid content and distribution and sequence determination with satisfactory agreement with published results. We then demonstrated that soluble secretory component concentration in tracheal aspirate fluid did not correlate with either albumin or with total protein measured in the same samples. Therefore, we conclude that the secretory component of IgA serves as a useful reference marker because its use may avoid errors resulting from leakage of plasma proteins into epithelial lining fluid. Advantages of this method for establishing a standard for secretory component include ready availability of soluble secretory component, simplicity of the method and relative rapidity of the techniques.     

Oligosaccharide side chains on human secretory IgA serve as receptors for ricin

Secretory IgA (sIgA) Abs are polymeric Igs comprised of two or more IgA monomers joined together at their C termini and covalently associated with a 70-kDa glycoprotein called secretory component. As the predominant Ig type in gastrointestinal sections, sIgA Abs are centrally important in adaptive immunity to enteropathogenic bacteria, viruses, and toxins. In this study, we demonstrate that sIgA Abs may also function in innate defense against ricin, a naturally occurring, galactose-specific plant lectin with extremely potent shiga toxin-like enzymatic activity. In lectin blot overlay assays, we found that ricin bound to secretory component and the H chain of human IgA, and this binding was inhibited by the addition of excess galactose. The toxin also recognized IgM (albeit with less affinity than to IgA), but not IgG. Ricin bound to both human IgA1 and IgA2, primarily via N-linked oligosaccharide side chains. At 100-fold molar excess concentration, sIgA (but not IgG) Abs inhibited ricin attachment to the apical surfaces of polarized intestinal epithelial cells grown in culture. sIgA Abs also visibly reduced toxin binding to the luminal surfaces of human duodenum in tissue section overlay assays. We conclude that sIgA Abs in mucosal secretions may serve as receptor analogues for ricin, thereby reducing the effective dose of toxin capable of gaining access to glycolipid and glycoprotein receptors on epithelial cell surfaces.     

Peculiar secretory IgA system identified in chickens. II. Identification and distribution of free secretory component and immunoglobulins of IgA, IgM, and IgG in chicken external secretions.

A homologue of a free secretory component (SC) was identified in chicken intestinal secretion by criteria based on its antigenic relationship with intestinal secretory IgA (SIgA), molecular size, sugar content, and electrophoretic mobility, as well as its elution characteristic from ion-exchange chromatography. SC was obtained in a form free from IgA from the intestinal secretion by salting out and DEAE chromatography, followed by density ultracentrifuguation or Sephadex G-200 gel-filtration. However, the free SC revealed some antigenic deficiency when compared to bound SC of intestinal SIgA and showed a failure of binding to serum-type-polymeric IgA of biliary IgA in vitro. Several kinds of chicken external secretions were examined for detection of SC and immunoglobulin classes of IgG, IgA, and IgM. In spite of the wide distribution of immunoglobulins in the external secretions, SC antigen could be detected only in intestinal secretion. Most IgA in the secretions had a molecular structure of a tetramer of serum-type IgA, lacking in SC and having 17S to 18.5S and 600,000 to 700,000 daltons. On the other hand, IgA in the intestinal secretion showed close similarity to the mammalian SIgA, associated with SC and having 11.2S and 350,000 daltons. Presence of antibody activity in the intestinal IgA to avian reovirus was confirmed by plaque reduction tests.     

Degradation of human secretory IgA1 and IgA2 by Entamoeba histolytica surface-associated proteolytic activity

The protozoan Entamoeba histolytica is the etiological agent of amebiasis, an infection with high prevalence worldwide. The host-ameba relationship outcome depends on parasite and host factors, and among these is secretory IgA. These antibodies reduce mucosal colonization by pathogens and neutralize a variety of toxins and enzymes. The functionality of secretory IgA depends on its integrity. Some bacteria produce IgA proteases that cleave mainly the IgA1 subclass; live E. histolytica trophozoites, and other ameba fractions are also able to degrade human IgA. The aim of this study was to determine if serum and secretory IgA, its subclasses and secretory component, are degraded by cysteine proteases, which are present and active on the surface of glutaraldehyde-fixed amebas. It was observed that secretory IgA1, IgA2, free and IgA-bound secretory component were degraded by E. histolytica surface-associated cysteine proteinases. Secretory IgA2, although it was degraded, conserved its ability to agglutinate live amebas better than IgA1. Therefore, while specificity of known ameba cysteine proteases is cathepsin B-like and is different from bacterial IgA proteases, IgA2 was functionally more resistant than IgA1 to ameba surface-associated cysteine protease degradation, similar to the greater resistance of IgA2 to bacterial IgA-specific proteases.     

Rat liver membrane secretory component is larger than free secretory component in bile: evidence for proteolytic conversion of membrane form to free form

Secretory component is a receptor for polymeric immunoglobulins on epithelial cells and hepatocytes that facilitates transport of polymeric immunoglobulins into external secretions. Little is known about the transcellular migration of secretory component-polymeric IgA complexes or the membrane forms of secretory component. We therefore examined rat bile and liver membranes to identify and compare the various molecular species of secretory component. Bile or liver membrane proteins were electrophoresed in sodium dodecyl sulfate-polyacrylamide gels and electrophoretically transferred to nitrocellulose membranes. Protein profiles on blots were probed with antisecretory component antiserum, and the immunoreactive bands were visualized by indirect immunoperoxidase staining. Bile collected in the presence of proteolytic inhibitors showed an immunoreactive doublet band (Mr = 82,000 and 78,000) in the molecular weight range of free secretory component. By contrast, free secretory component in bile collected in the absence of proteolytic inhibitors and purified by affinity chromatography migrated as a single protein with an Mr = 70,000. Both components of the free secretory component doublet bound dimeric IgA when blots were probed with human dimeric IgA. Crude liver membranes prepared in the presence of proteolytic inhibitors showed two immunoreactive secretory component-containing bands, Mr = 107,000 and 99,000, whereas membranes prepared without proteolytic inhibitors showed two smaller immunoreactive bands; one of these proteolytically severed proteins comigrated with the 82,000-dalton free secretory component in bile. These results indicate that membrane forms of secretory component are present in rat liver. The observations that the membrane secretory component is larger than biliary free secretory component and yields biliary SC-like forms of secretory component upon proteolysis support the hypothesis that free secretory component in bile is a proteolytic product of larger liver membrane-associated secretory component.     

High levels of IgA-containing circulating immune complex and secretory IgA in Kawasaki disease

Sera of patients with Kawasaki disease were studied for the levels of IgA-containing (C3-fixing) circulating immune complexes (IgA-CIC), IgG-containing (IgG-)CIC, total IgA, secretory IgA, and complement component (C3) by means of enzyme-linked immunosorbent assays or single radial immunodiffusion methods. There was significantly high level of IgA-CIC, but not IgG-CIC. The levels of total IgA, secretory IgA, and C3 were significantly elevated. Significantly high levels of secretory IgA were found in 22 (51%) of 43 patients. The proportion of secretory IgA to total IgA also increased. These abnormalities in the IgA system may play a role in Kawasaki disease.     

烧伤患者肠道内与尿中免疫球蛋白A含量变化关系初步研究

为了解烧伤患者肠道内与尿中免疫球蛋白A(IgA)含量变化关系 ,采用ELISA方法测定了大面积烧伤患者尿和大便标本中IgA的含量。结果表明 ,烧伤后肠道内IgA含量明显减少 ,于伤后第三周达到最低点 ,而后回升。尿中IgA水平在伤后的变化与肠道相反 ,于伤后第一周即明显升高并达到高峰 ,而后逐渐降低 ,至伤后第四周已接近对照水平 ,两组均数呈负相关 (r=-0 .763 )。提示烧伤后肠道与尿中IgA含量的变化可能存在一定的关系 ,由于尿标本的留取方便、及时 ,测定尿中的IgA含量对于临床判断烧伤患者肠道屏障功能有一定的意义     

Microecology and humoral immunity characteristics of the vagina in women with nonspecific inflammatory diseases of the genitals

The complex cytological, microbiological and immunological examination of 90 female patients with nonspecific inflammatory diseases of the genital tracts and 30 clinically healthy women (the control group) was carried out. The examination revealed significant microbiocenosis changes in the lumen and the parietal area of the vagina, depending on the severity of the infectious process: a decrease in the level of lactobacilli, an increase in the content of opportunistic facultative anaerobic microorganism in the lumen and obligate anaerobic bacteria in the parietal area. Pronounced correlation between the content of opportunistic microorganisms and the levels of IgM and IgA, as well as secretory IgA and free secretory component in vaginal secretions in patients in patients with non-specific inflammatory diseases of the genital tracts has been revealed.     

Prevalence of Helicobacter pylori infection in Warao lineage communities of Delta Amacuro State, Venezuela

The purpose of this study was the evaluation of Helicobacter pylori infections in children and adults from two indigenous communities of Delta Amacuro State, Venezuela, that differ in hygienic conditions of the housing. The evaluation was performed in 98 children (mean age 7 +/- 3.37 years) and their mothers (33.96 +/- 13.77 years) from two communities of Warao lineage. Anti-H. pylori serum IgG and secretory anti-H. pylori IgA antibodies were determined, as well as total secretory IgA and H. pylori antigens in feces. Serological prevalence of H. pylori infection was 38% in children and 84% their in mothers. Children from the community that had the most deficient sanitary and hygienic conditions had significantly lower titers of specific IgG antibodies and total secretory IgA (P<0.0001) and a high percentage of them had H. pylori antigens in their feces (P<0.0001). The levels of specific IgA were similar in both groups. The results indicate that in these populations there is a high prevalence of H. pylori infection and that poor hygienic conditions can increase the risk of infection and damage to the gastrointestinal tract.     

Secretory IgA specific for Toxoplasma gondii

Secretory IgA specific for Toxoplasma gondii was identified in intestinal secretions of mice infected perorally with bradyzoites (encysted in brain) of the Me49 strain of T. gondii by using immunofluorescence microscopy and an ELISA. This activity was absorbed with tachyzoites of T. gondii but not mouse brain. To determine whether increased total amount of intestinal IgA might cause a nonspecific reaction in the ELISA for T. gondii-specific IgA, mice were immunized perorally with cholera toxin. This immunization produced intestinal IgA antibody to cholera toxin and increased the total amount of intestinal IgA, but there was no reactivity of intestinal secretions in the ELISA for T. gondii-specific IgA. Experiments in which ELISA were performed with monoclonal IgA, IgG, or IgM and antisera to IgA, IgG, or IgM demonstrated that the ELISA was specific for each Ig class. In addition, monoclonal IgA competed with the anti-Toxoplasma IgA activity of intestinal secretions obtained from mice infected with T. gondii.     

Lack of J chain inhibits the transport of gut IgA and abrogates the development of intestinal antitoxic protection.

Recent publications have provided confusing information on the importance of the J chain for secretion of dimeric IgA at mucosal surfaces. Using J chain-deficient (J chain-/-) mice, we addressed whether a lack of J chain had any functional consequence for the ability to resist challenge with cholera toxin (CT) in intestinal loops. J chain-/- mice had normal levels of IgA plasma cells in the gut mucosa, and the Peyer's patches exhibited normal IgA B cell differentiation and germinal center reactions. The total IgA levels in gut lavage were reduced by roughly 90% as compared with that in wild-type controls, while concomitantly serum IgA levels were significantly increased. Total serum IgM levels were depressed, whereas IgG concentrations were normal. Following oral immunizations with CT, J chain-/- mice developed 10-fold increased serum antitoxin IgA titers, but gut lavage anti-CT IgA levels were substantially reduced. However, anti-CT IgA spot-forming cell frequencies in the gut lamina propria were normal. Anti-CT IgM concentrations were low in serum and gut lavage, whereas anti-CT IgG titers were unaltered. Challenge of small intestinal ligated loops with CT caused dramatic fluid accumulation in immunized J chain-/- mice, and only 20% protection was detected compared with unimmunized controls. In contrast, wild-type mice demonstrated 80% protection against CT challenge. Mice heterozygous for the J chain deletion exhibited intermediate gut lavage anti-CT IgA and intestinal protection levels, arguing for a J chain gene-dosage effect on the transport of secretory IgA. This study unequivocally demonstrates a direct relationship between mucosal transport of secretory SIgA and intestinal immune protection.     

Binding of secretory component to dimers of immunoglobulin A in vitro. Mechanism of the covalent bond formation.

A complex between secretory component and an immunoglobulin A (IgA) myeloma dimer has been studied in vitro as a model to elucidate the mechanism of the formation of disulfide bonds during assembly in vivo of secretory immunoglobin A. A small amount of free thiol groups, totally about 0.4 groups per mole of protein, were shown to be present on both the heavy and light chains of the IgA dimer, but not on its J-chain, while no such groups could be demonstrated on free secretory component. The SH-groups on IgA most likely exist as a result of incomplete oxidation of some intra-or interchain disulfide bonds of the molecule, analogous to what has been suggested for IgG. Several types of evidence indicated that the disulfide bonds between secretory component and IgA are formed after the noncovalent association of the two proteins by a sulfhydryl group-disulfide bond exchange reaction, in which the small amount of free sulfhydryl groups on the IgA dimer initiate the reaction by reducing a reactive disulfide bond on secretory component. This exchange reaction, which thus proceeds by the mechanism of so-called disulfide interchange reactions, requires certain conformational features of one or both of the proteins and leads to the formation of presumably two new interchain disulfide bonds between secretory component and IgA. The reaction does not progress to completion, however, but ends in an equilibrium so that a small proportion of the secretory component molecules always are unattached by disulfide bonds.     

Assembly, secretion, and vacuolar delivery of a hybrid immunoglobulin in plants

Secretory immunoglobulin (Ig) A is a decameric Ig composed of four alpha-heavy chains, four light chains, a joining (J) chain, and a secretory component (SC). The heavy and light chains form two tetrameric Ig molecules that are joined by the J chain and associate with the SC. Expression of a secretory monoclonal antibody in tobacco (Nicotiana tabacum) has been described: this molecule (secretory IgA/G [SIgA/G]) was modified by having a hybrid heavy chain sequence consisting of IgG gamma-chain domains linked to constant region domains of an IgA alpha-chain. In tobacco, about 70% of the protein assembles to its final, decameric structure. We show here that SIgA/G assembly and secretion are slow, with only approximately 10% of the newly synthesized molecules being secreted after 24 h and the bulk probably remaining in the endoplasmic reticulum. In addition, a proportion of SIgA/G is delivered to the vacuole as at least partially assembled molecules by a process that is blocked by the membrane traffic inhibitor brefeldin A. Neither the SC nor the J chain are responsible for vacuolar delivery, because IgA/G tetramers have the same fate. The parent IgG tetrameric molecule, containing wild-type gamma-heavy chains, is instead secreted rapidly and efficiently. This strongly suggests that intracellular retention and vacuolar delivery of IgA/G is due to the alpha-domains present in the hybrid alpha/gamma-heavy chains and indicates that the plant secretory system may partially deliver to the vacuole recombinant proteins expected to be secreted.     

Resistance of normal serum IgA and secretory IgA to bacterial IgA proteases: evidence for the presence of enzyme-neutralizing antibodies in both serum and secretory IgA, and also in serum IgG

Normal serum IgA and secretory IgA (sIgA) of subclass IgA1 were isolated from pooled human serum and milk, respectively. They were tested for their susceptibility to bacterial IgA proteases from Haemophilus influenzae, Streptococcus pneumoniae, Neisseria gonorrhoeae, and Neisseria meningitidis that cleave IgA of only the IgA1 subclass. They were also tested for susceptibility to a novel IgA-protease from Clostridium ramosum that cleaves IgA of the IgA1 as well as the IgA2 subclass of the A2m(1) allotype. Both normal serum IgA1 and sIgA1 exhibited resistance to most IgA proteases. The one exception was the IgA protease from C. ramosum which readily cleaved both the serum IgA1 and sIgA1 into Fab and Fc fragments. Secretory component (SC) had nothing to do with the resistance of these IgAs. The resistance of these IgAs to most of the IgA proteases was found to be due to their enzyme-neutralizing antibody activity, since the Fab but not the Fc fragment of sIgA1 showed enzyme-inhibitory activity against these IgA proteases. Similar enzyme-neutralizing antibody activity was found in the pepsin-digested normal serum IgG-(Fab')2 fragment. These results indicate that the induction of the enzyme-neutralizing antibodies against the bacterial IgA proteases took place not only in mucosal sIgA but also in serum IgA and IgG. No enzyme-neutralizing antibody activity against the novel IgA-protease of C. ramosum was detected in any immunoglobulin preparations used in the present study or in the serum of a patient who carries the IgA protease-producing strain of C. ramosum in his feces.     

Presence of Active Hatching Enzyme in the Secretory Granule of Prehatching Medaka Embryos

Secretory granules of hatching gland were isolated from a 0.3 M sucrose homogenate of whole medaka embryos at prehatching stage by differential centrifugation, followed by a Percoll density gradient centrifugation. The obtained preparation was almost free of melanosomes and composed exclusively of the secretory granules of hatching gland (hatching enzyme granules), as judged by morphological as well as enzymological criteria.
The aqueous extracts of the purified secretory granules showed a specific choriolytic activity as high as about 40 times that of a partially purified secretory granule preparation, P_1,000, and represented a single protein band with molecular weight of about 21,000 on SDS-polyacrylamide gel electrophoresis. It was also revealed that a major component of the hatching enzyme preparation (P II–0.3 enzyme, 13) purified from the hatching liquid was identical with the 21,000 molecular weight band.
These results suggest that the hatching enzyme is present in the secretory granules of prehatching embryos in an active molecular form.