[A CASE OF ANAPHYLAXIS IN THE PEDIATRIC PATIENT WITH MILK ALLERGY DUE TO TRACES OF MILK PROTEIN IN THE LACTOSE USED AS AN EXCIPIENT OF INAVIR INHALATION].

The patient was a 6-year-old female with milk allergy and persistent asthma. She experienced anaphylactic reactions just after the inhalation of Inavir (Laninamivir Octanoate Hydrate) to treat flu infection. A skin-prick test showed positive reactions for Inavir inhaler powder and lactose used as an excipient but negative for Laninamivir. Same results were obtained in a drug-stimulated basophil activation test. The lactose excipient in Inavir inhaler powder was supposed to contain milk proteins, which caused anaphylactic reactions. To test this possibility, we examined the contamination of allergic milk proteins in the lactose excipient and found the smear band by silver staining, which was identified as ß-lactoglobulin (ß-LG) by Western blotting using specific monoclonal antibody and patient's sera. The ß-LG in Inavir was supposed to be glycosylated with lactose because the molecular weight was slightly higher than ß-LG standard reference as seen in mobility. In fact, the incubation with lactose in vitro tended to increase molecular weight. Following these results, we herein report that the trace amounts of ß-LG contaminated in the lactose excipient of Inavir could cause immediate allergic reactions. The risk that the lactose-containing dry powder inhalers cause allergic reactions for patients with cow's milk allergy need to be reminded. In particular, the use for flu patients should be paid careful attention because of increased airway hypersensitivity in those patients.

Immunization with recombinantly expressed glycan antigens from Schistosoma mansoni induces glycan-specific antibodies against the parasite.

Schistosomiasis caused by infection with parasitic helminths of Schistosoma spp. is a major global health problem due to inadequate treatment and lack of a vaccine. The immune response to schistosomes includes glycan antigens, which could be valuable diagnostic markers and vaccine targets. However, no precedent exists for how to design vaccines targeting eukaryotic glycoconjugates. The di- and tri-saccharide motifs LacdiNAc (GalNAcß1,4GlcNAc; LDN) and fucosylated LacdiNAc (GalNAcß1,4(Fucα1-3)GlcNAc; LDNF) are the basis for several important schistosome glycan antigens. They occur in monomeric form or as repeating units (poly-LDNF) and as part of a variety of different glycoconjugates. Because chemical synthesis and conjugation of such antigens is exceedingly difficult, we sought to develop a recombinant expression system for parasite glycans. We hypothesized that presentation of parasite glycans on the cell surface would induce glycan-specific antibodies. We generated Chinese hamster ovary (CHO) Lec8 cell lines expressing poly-LDN (L8-GT) and poly-LDNF (L8-GTFT) abundantly on their membrane glycoproteins. Sera from Schistosoma mansoni-infected mice were highly cross-reactive with the cells and with cell-surface N-glycans. Immunizing mice with L8-GT and L8-GTFT cells induced glycan-specific antibodies. The L8-GTFT cells induced a sustained booster response, with antibodies that bound to S. mansoni lysates and recapitulated the exquisite specificity of the anti-parasite response for particular presentations of LDNF antigen. In summary, this recombinant expression system promotes successful generation of antibodies to the glycans of S. mansoni, and it can be adapted to study the role of glycan antigens and anti-glycan immune responses in many other infections and pathologies.

Differential expression of anti-glycan antibodies in schistosome-infected humans, rhesus monkeys and mice.

Schistosomiasis is a debilitating parasitic disease of humans, endemic in tropical areas, for which no vaccine is available. Evidence points to glycan antigens as being important in immune responses to infection. Here we describe our studies on the comparative humoral immune responses to defined schistosome-type glycan epitopes in Schistosoma mansoni-infected humans, rhesus monkeys and mice. Rhesus anti-glycan responses over the course of infection were screened on a defined glycan microarray comprising semi-synthetic glycopeptides terminating with schistosome-associated or control mammalian-type glycan epitopes, as well as a defined glycan microarray of mammalian-type glycans representing over 400 glycan structures. Infected rhesus monkeys generated a high immunoglobulin G (IgG) antibody response to the core xylose/core α3 fucose epitope of N-glycans, which peaked at 8-11 weeks post infection, coinciding with maximal ability to kill schistosomula in vitro. By contrast, infected humans generated low antibody levels to this epitope. At 18 months following praziquantel therapy to eliminate the parasite, antibody levels were negligible. Mice chronically infected with S. mansoni generated high levels of anti-fucosylated LacdiNAc (GalNAcß1, 4(Fucα1, 3)GlcNAc) IgM antibodies, but lacked a robust response to the core xylose/core α3 fucose N-glycan antigens compared with other species studied, and their sera demonstrated an intermediate level of schistosomula killing in vitro. These differential responses to parasite glycan antigens may be related to the ability of rhesus monkeys to self-cure in contrast to the chronic infection seen in humans and mice. Our results validate defined glycan microarrays as a useful technology to evaluate diagnostic and vaccine antigens for schistosomiasis and perhaps other infections.

Dual specificity of human plasma lactose-binding immunoglobulin to anomers of terminal galactose enables recognition of desialylated lipoprotein(a) and xenoantigens.

Human plasma lactose-binding immunoglobulin (LIg) isolated by affinity chromatography on lactose-Sepharose was largely IgG with significant IgA and IgM contents. LIg-mediated agglutination of desialylated human RBC was inhibited equally by the α- and ß-anomers of methyl galactoside. Recognition of either the terminal α-galactose (TAG)-containing glycans of bovine thyroglobulin or the N-acetyl lactosamine (LacNAc)-terminating glycans of asialofetuin by LIg was inhibitable nearly as much by the α-galactoside melibiose as by the ß-galactoside lactose. Melibiose covalently conjugated to protein and coated on polystyrene wells captured several times more LIg molecules than its lactose analogue. LIg binding to bovine thyroglobulin or rabbit RBC membrane proteins, both bearing TAG was substantially reduced by prior treatment of the proteins with α-galactosidase to remove TAG though enzyme-treated glycans contained newly exposed LacNAc moieties. Desialylated O-linked oligosaccharides, however, were no ligand for LIg. Unlike LDL, plasma lipoprotein(a) [Lp(a)] coated on polystyrene well and desialylated by neuraminidase was recognized by LIg through terminal LacNAc moieties exposed by the enzyme on its apo(a) subunit. Further, same amount of added fluorescence-labelled LIg formed significantly more immune complex with Lp(a) in high Lp(a) plasma than in low Lp(a) plasma. Results suggest (1) possibility of a role for LIg in combating non-primate molecules and cells bearing TAG moiety and (2) a mechanism for Lp(a)-mediated vascular injury as diabetes, infections and inflammations induce greater release of neuraminidase into circulation.

Milk oligosaccharide sialyl(α2,3)lactose activates intestinal CD11c+ cells through TLR4.

Breast milk oligosaccharides shape the intestinal environment by affecting mucosal immunity and bacterial colonization. To clarify the role of milk oligosaccharide sialyl(α2,3)lactose (3SL) in intestinal physiology and disease, we investigated colitis development in Il10(-/-) mice exposed to normal or 3SL-deficient milk during lactation. Onset and progression of intestinal inflammation were delayed in Il10(-/-) mice deficient for the α2,3 sialyltransferase 4 (ST3GAL4) responsible for 3SL biosynthesis. The proinflammatory role of 3SL was confirmed by showing that oral supplementation of newborn Il10(-/-);St3gal4(-/-) mice with 3SL increased colitis severity. Conversely, fostering of newborn Il10(-/-) mice to lactating St3gal4(-/-) mothers reduced colitis severity. 3SL directly stimulated mesenteric lymph node CD11c(+) dendritic cells and induced production of cytokines required for expansion of TH1 and TH17 T cells. The stimulatory effect of 3SL was attenuated in Tlr4-deficient CD11c(+) cells, demonstrating that 3SL induces inflammation through Toll-like receptor 4 (TLR4) signaling. Thus, 3SL directly modulates mucosal immunity, which increases susceptibility to colitis.

Lactose in human breast milk an inducer of innate immunity with implications for a role in intestinal homeostasis.

Postpartum, infants have not yet established a fully functional adaptive immune system and are at risk of acquiring infections. Hence, newborns are dependent on the innate immune system with its antimicrobial peptides (AMPs) and proteins expressed at epithelial surfaces. Several factors in breast milk are known to confer immune protection, but which the decisive factors are and through which manner they work is unknown. Here, we isolated an AMP-inducing factor from human milk and identified it by electrospray mass spectrometry and NMR to be lactose. It induces the gene (CAMP) that encodes the only human cathelicidin LL-37 in colonic epithelial cells in a dose- and time-dependent manner. The induction was suppressed by two different p38 antagonists, indicating an effect via the p38-dependent pathway. Lactose also induced CAMP in the colonic epithelial cell line T84 and in THP-1 monocytes and macrophages. It further exhibited a synergistic effect with butyrate and phenylbutyrate on CAMP induction. Together, these results suggest an additional function of lactose in innate immunity by upregulating gastrointestinal AMPs that may lead to protection of the neonatal gut against pathogens and regulation of the microbiota of the infant.

Determination of glycation sites by tandem mass spectrometry in a synthetic lactose-bovine serum albumin conjugate, a vaccine model prepared by dialkyl squarate chemistry.

RATIONALE: Neoglycoconjugate vaccines synthesized by the squaric acid spacer method allow single point attachment of the carbohydrate antigen to the protein carrier. However, the localization of the carbohydrate antigen sites of conjugation on the protein carrier has been an elusive task difficult to achieve. METHOD: Covalent attachment of the lactose antigen to the bovine serum albumin (BSA) was prepared by the squaric acid method using a hapten:BSA ratio of 20:1. Different reaction times were used during the conjugation reaction and two different lactose-BSA glycoconjugate vaccines were obtained. The carbohydrate antigen hapten:BSA ratios of these lactose-BSA glycoconjugate vaccines were determined by MALDI-TOF/RTOF-MS and the glycation sites in the neoglycoconjugates were determined using nano-LC/ESI-QqTOF-MS/MS analysis of the trypsin and GluC V8 digests of the conjugates. RESULTS: We have identified a total of 15 glycation sites located on the BSA lysine residues for the neoglycoconjugate vaccine formed with a hapten:BSA ratio of 5.1:1, However, the tryptic and GluC V8 digests of the hapten-BSA glycoconjugate with a hapten:BSA ratio of 19.0:1 allowed identification of 30 glycation sites located on the BSA. These last results seem to indicate that this conjugation results in formation of various glycoforms. CONCLUSIONS: It was observed that the number of identified glycation sites increased when the hapten:BSA ratio of glycoconjugate formation increased, and that the location of the glycation sites appears to be mainly on the outer surface of the BSA carrier molecule which is in line with the assumption that the sterically more accessible lysine residues, namely those located on the outer surface of the BSA, would be conjugated preferentially.

Lactosa, lactasa y el problema de la intolerancia. Primera parte: Importancia nutricional de la lactosa / Lactose, lactase and the problem of intolerance. Part One: Importance

La intolerancia a la lactosa es un trastorno no inmunológico de frecuente atención por alergistas. La lactosa es un disacárido constituido por glucosa y galactosa y sintetizado exclusivamente en la glándula mamaria con participación de la enzima lactosa sintetasa. Este disacárido no usual, que sirve como principal combustible para el lactante, tiene como ventajas su osmolaridad y la presencia de la unión (β1 4) entre glucosa y galactosa. Su absorción requiere de la actividad de una β-galactosidasa específica, la lactasa. La lactosa ingerida, que excede la capacidad de la lactasa para hidrolizarla,permanece en la luz intestinal provocando acumulación de agua y electrolitos. La lactosa no absorbida es fermentada por la microbiota colónica con producción de ácidos grasos de cadena corta y gases. La ingestión de este disacárido favorece el desarrollo de una flora acidófila capaz de sintetizar vitaminas e inhibir el desarrollo de gérmenes patógenos; además, estimula la absorción del calcio y otros cationes. La actividad de la lactasa intestinal es máxima en el período neonatal, disminuye al destete y llega a niveles bajos en el adulto. La caída en la actividad comienza entre los 2 y 3 años y se completa alrededor de los 5 ó 6 con diferencias étnicas. En los individuos sanos, en los que no disminuye, la lactasa permanece elevada durante toda la vida. Para explicar la distribución regional y étnica de la variabilidaden la actividad de la lactasa en los adultos de la especie humana, se sugirieron diferentes hipótesis de adaptación y genética.

Lactose intolerance is a non immunological disorder of frequent attention by allergologists. The lactose is a disaccharide of glucose and galactose synthesized exclusively in the mammary gland with participation of the enzyme lactose sinthetase. This non usual disaccharide, which serves like fuel for the suckling baby, has like advantages its osmolarity and its union (β1 4) between glucose and galactose. Its absorption requires of the specific activity of one β-galactosidase, lactase. The ingested lactose, that exceeds the capacity of lactase hydrolysis, remains in the intestinal light causing accumulation of water and electrolytes. The non absorbed lactose is fermented by colonic microbiota with production of short chain fatty acids and gases. The lactose is the main energy source during the first year of life. The lactose ingestion favors the development of acidophil flora able to synthesize vitamins and to inhibit the development of pathogenic germs; it stimulates the absorption of calcium and other cations. The activity of intestinal lactase is maximal in the neonatal period, diminishes to the weaning and arrives at low levels in the adult. The fall in the activity begins between the 2 and 3 years of life and it is completed around 5 or 6, with ethnic differences. In the healthy individuals, in who does not diminish, lactase remains high during along life. In order to explain the regional and ethnic distribution of the variability in the activity of lactase in adults of the human species, different hypotheses from adaptation and genetics were suggested.

Lactosa, lactasa y el problema de la intolerancia. Primera parte: Importancia nutricional de la lactosa / Lactose, lactase and the problem of intolerance. Part One: Importance

La intolerancia a la lactosa es un trastorno no inmunológico de frecuente atención por alergistas. La lactosa es un disacárido constituido por glucosa y galactosa y sintetizado exclusivamente en la glándula mamaria con participación de la enzima lactosa sintetasa. Este disacárido no usual, que sirve como principal combustible para el lactante, tiene como ventajas su osmolaridad y la presencia de la unión (β1 4) entre glucosa y galactosa. Su absorción requiere de la actividad de una β-galactosidasa específica, la lactasa. La lactosa ingerida, que excede la capacidad de la lactasa para hidrolizarla,permanece en la luz intestinal provocando acumulación de agua y electrolitos. La lactosa no absorbida es fermentada por la microbiota colónica con producción de ácidos grasos de cadena corta y gases. La ingestión de este disacárido favorece el desarrollo de una flora acidófila capaz de sintetizar vitaminas e inhibir el desarrollo de gérmenes patógenos; además, estimula la absorción del calcio y otros cationes. La actividad de la lactasa intestinal es máxima en el período neonatal, disminuye al destete y llega a niveles bajos en el adulto. La caída en la actividad comienza entre los 2 y 3 años y se completa alrededor de los 5 ó 6 con diferencias étnicas. En los individuos sanos, en los que no disminuye, la lactasa permanece elevada durante toda la vida. Para explicar la distribución regional y étnica de la variabilidaden la actividad de la lactasa en los adultos de la especie humana, se sugirieron diferentes hipótesis de adaptación y genética. (AU)

Lactose intolerance is a non immunological disorder of frequent attention by allergologists. The lactose is a disaccharide of glucose and galactose synthesized exclusively in the mammary gland with participation of the enzyme lactose sinthetase. This non usual disaccharide, which serves like fuel for the suckling baby, has like advantages its osmolarity and its union (β1 4) between glucose and galactose. Its absorption requires of the specific activity of one β-galactosidase, lactase. The ingested lactose, that exceeds the capacity of lactase hydrolysis, remains in the intestinal light causing accumulation of water and electrolytes. The non absorbed lactose is fermented by colonic microbiota with production of short chain fatty acids and gases. The lactose is the main energy source during the first year of life. The lactose ingestion favors the development of acidophil flora able to synthesize vitamins and to inhibit the development of pathogenic germs; it stimulates the absorption of calcium and other cations. The activity of intestinal lactase is maximal in the neonatal period, diminishes to the weaning and arrives at low levels in the adult. The fall in the activity begins between the 2 and 3 years of life and it is completed around 5 or 6, with ethnic differences. In the healthy individuals, in who does not diminish, lactase remains high during along life. In order to explain the regional and ethnic distribution of the variability in the activity of lactase in adults of the human species, different hypotheses from adaptation and genetics were suggested. (AU)

Glycan microarray profiling of parasite infection sera identifies the LDNF glycan as a potential antigen for serodiagnosis of trichinellosis.

Diagnostic methods for parasite infections still highly depend on the identification of the parasites by direct methods such as microscopic examination of blood, stool and tissue biopsies. Serodiagnosis is often carried out to complement the direct methods; however, few synthetic antigens with sufficient sensitivity and specificity are available. Here we evaluated a glycan microarray approach to select for synthetic glycan antigens that could be used for serodiagnosis of parasitic infections. Using a glycan array containing over 250 different glycan antigens, we identified GalNAcß1-4(Fucα1-3)GlcNAc-R (LDNF) as a glycan antigen that is recognized by antibodies from Trichinella-infected individuals. We synthesized a neoglycoconjugate, consisting of five LDNF molecules covalently coupled to bovine serum albumin (BSA), and used this neoglycoconjugate as an antigen to develop a highly sensitive total-Ig ELISA for serological screening of trichinellosis. The results indicate that glycan microarrays constitute a promising technology for fast and specific identification of parasite glycan antigens to improve serodiagnosis of different parasitic infections, either using an ELISA format, or parasite-specific glycan arrays.

Neutralising antibodies against ricin toxin.

The Centers for Disease Control and Prevention have listed the potential bioweapon ricin as a Category B Agent. Ricin is a so-called A/B toxin produced by plants and is one of the deadliest molecules known. It is easy to prepare and no curative treatment is available. An immunotherapeutic approach could be of interest to attenuate or neutralise the effects of the toxin. We sought to characterise neutralising monoclonal antibodies against ricin and to develop an effective therapy. For this purpose, mouse monoclonal antibodies (mAbs) were produced against the two chains of ricin toxin (RTA and RTB). Seven mAbs were selected for their capacity to neutralise the cytotoxic effects of ricin in vitro. Three of these, two anti-RTB (RB34 and RB37) and one anti-RTA (RA36), when used in combination improved neutralising capacity in vitro with an IC(50) of 31 ng/ml. Passive administration of association of these three mixed mAbs (4.7 µg) protected mice from intranasal challenges with ricin (5 LD(50)). Among those three antibodies, anti-RTB antibodies protected mice more efficiently than the anti-RTA antibody. The combination of the three antibodies protected mice up to 7.5 hours after ricin challenge. The strong in vivo neutralising capacity of this three mAbs combination makes it potentially useful for immunotherapeutic purposes in the case of ricin poisoning or possibly for prevention.

Targeted glycoproteomic analysis reveals that kappa-5 is a major, uniquely glycosylated component of Schistosoma mansoni egg antigens.

Glycans present on glycoproteins from the eggs of the parasite Schistosoma mansoni are mediators of various immune responses of the human host, including T-cell modulation and granuloma formation, and they are the target of glycan-specific antibodies. Here we have analyzed the glycosylation of kappa-5, a major glycoprotein antigen from S. mansoni eggs using a targeted approach of lectin purification followed by mass spectrometry of glycopeptides as well as released glycans. We demonstrate that kappa-5 has four fully occupied N-glycosylation sites carrying unique triantennary glycans composed of a difucosylated and xylosylated core region, and immunogenic GalNAcß1-4GlcNAc (LDN) termini. Furthermore, we show that the kappa-5 specific IgE antibodies in sera of S. mansoni-infected individuals are directed against the core region of the kappa-5 glycans. Whereas two previously analyzed immunomodulatory egg glycoproteins, IPSE/alpha-1 and omega-1, both express diantennary N-glycans with a difucosylated core and one or two Galß1-4(Fucα1-3)GlcNAc (Lewis X) antennae, the kappa-5 glycosylation appears unique among the major soluble egg antigens of S. mansoni. The distinct structural and antigenic properties of kappa-5 glycans suggest a specific role for kappa-5 in schistosome egg immunogenicity.

Bovine colostrum modulates immune activation cascades in human peripheral blood mononuclear cells in vitro.

Bovine colostrum (BC) is the thick yellow fluid a lactating cow gives to a suckling calf during its first days of life to support the growth of the calf and prevent gastrointestinal infections until the calf has synthesized its own active immune defense system. BC contains a complex system of immune factors and has a long history of use in traditional medicine. In an approach to evaluate the effects of bovine colostrum (BC) on the T-cell/macrophage interplay, we investigated and compared the capacity of BC containing low and high amounts of lactose and lactoferrin to modulate tryptophan degradation and neopterin formation in unstimulated and mitogen-stimulated human peripheral blood mononuclear cells (PBMC). The present study shows significant immunomodulatory effects of these BC preparations in human PBMC, either by enhancing or suppressing the occurrence of a Th-1 type immune response. The amount of lactose present in BC seems to diminish the activity of BC in our test system, since BC with higher amounts of lactose attenuated the stimulatory as well as the suppressive activity of BC.

Galectin-9/TIM-3 interaction regulates virus-specific primary and memory CD8 T cell response.

In this communication, we demonstrate that galectin (Gal)-9 acts to constrain CD8(+) T cell immunity to Herpes Simplex Virus (HSV) infection. In support of this, we show that animals unable to produce Gal-9, because of gene knockout, develop acute and memory responses to HSV that are of greater magnitude and better quality than those that occur in normal infected animals. Interestingly, infusion of normal infected mice with alpha-lactose, the sugar that binds to the carbohydrate-binding domain of Gal-9 limiting its engagement of T cell immunoglobulin and mucin (TIM-3) receptors, also caused a more elevated and higher quality CD8(+) T cell response to HSV particularly in the acute phase. Such sugar treated infected mice also had expanded populations of effector as well as memory CD8(+) T cells. The increased effector T cell responses led to significantly more efficient virus control. The mechanisms responsible for the outcome of the Gal-9/TIM-3 interaction in normal infected mice involved direct inhibitory effects on TIM-3(+) CD8(+) T effector cells as well as the promotion of Foxp3(+) regulatory T cell activity. Our results indicate that manipulating galectin signals, as can be achieved using appropriate sugars, may represent a convenient and inexpensive approach to enhance acute and memory responses to a virus infection.

Naked plasmid DNA formulation: effect of different disaccharides on stability after lyophilisation.

Since plasmid DNA (pDNA) is unstable in solution, lyophilisation can be used to increase product shelf life. To prevent stress on pDNA molecules during lyophilisation, cryo- and lyoprotectants have to be added to the formulation. This study assessed the effect of disaccharides on naked pDNA stability after lyophilisation using accelerated stability studies. Naked pDNA was lyophilised with sucrose, trehalose, maltose or lactose in an excipient/DNA w/w ratio of 20. To one part of the vials extra residual moisture was introduced by placing the vials half opened in a 25 degrees C/60% RH climate chamber, before placing all vials in climate chambers (25 degrees C/60% RH and 40 degrees C/75% RH) for stability studies. An ex vivo human skin model was used to assess the effect of disaccharides on transfection efficiency. Lyophilisation resulted in amorphous cakes for all disaccharides with a residual water content of 0.8% w/w. Storage at 40 degrees C/75% RH resulted in decreasing supercoiled (SC) purity levels (sucrose and trehalose maintained approximately 80% SC purity), but not in physical collapse. The addition of residual moisture (values between 7.5% and 10% w/w) resulted in rapid collapse except for trehalose and decreasing SC purity for all formulations. In a separate experiment disaccharide formulation solutions show a slight but significant reduction (<3% with sucrose and maltose) in transfection efficiency when compared to pDNA dissolved in water. We demonstrate that disaccharides, like sucrose and trehalose, are effective lyoprotectants for naked pDNA.

Anti-glycosyl antibodies in lipid rafts of the enterocyte brush border: a possible host defense against pathogens.

The pig small intestinal brush border is a glycoprotein- and glycolipid-rich membrane that functions as a digestive/absorptive surface for dietary nutrients as well as a permeability barrier for pathogens. The present work was performed to identify carbohydrate-binding (lectinlike) proteins associated with the brush border. Chromatography on lactose-agarose was used to isolate such proteins, and their localization was studied biochemically and by immunofluorescence microscopy and immunogold electron microscopy. IgG and IgM were the two major proteins isolated, indicating that naturally occurring anti-glycosyl antibodies are among the major lectinlike proteins in the gut. IgG and IgM as well as IgA were localized to the enterocyte brush border, and a brief lactose wash partially released all three immunoglobulins from the membrane, indicating that anti-glycosyl antibodies constitute a major part of the immunoglobulins at the lumenal surface of the gut. The antibodies were associated with lipid rafts at the brush border, and they frequently (52%) coclustered with the raft marker galectin 4. A lactose wash increased the susceptibility of the brush border toward lectin peanut agglutin and cholera toxin B, suggesting that anti-glycosyl antibodies compete with other carbohydrate-binding proteins at the lumenal surface of the gut. Thus anti-glycosyl antibodies constitute a major group of proteins associated with the enterocyte brush border membrane. We propose they function by protecting the lipid raft microdomains of the brush border against pathogens.

Presence of the LDNF glycan on the host-protective H-gal-GP fraction from Haemonchus contortus.

Immunization of sheep with the gut membrane-associated protein complex H-gal-GP of adult Haemonchus contortus induces high levels of protection against a homologous challenge infection. Protection is correlated with a systemic IgG response against the antigen. Analysis of the antibody response showed that the majority of the antigen-specific IgG was of the IgG2 isotype. A substantial proportion (74%) of this response was directed against the glycan component of H-gal-GP. The high immunogenicity of the H-gal-GP glycans may be due to the presence of the fucosylated LacdiNAc (LDNF) antigen. 2D electrophoresis, Western blotting and mass spectrometry analysis of H-gal-GP showed that this glycan epitope was specifically located on a metalloendopeptidase, MEP3. MEP3 is the most abundant protein in H-gal-GP and has been identified as one of the most likely protective components of the complex. Here, we present evidence that the LDNF glycan does not contribute to the protective capacity of H-gal-GP. Animals vaccinated with reduced and denatured H-gal-GP are not protected against subsequent infection, although the antibody response against the LDNF glycan is very similar to that of animals vaccinated with the native H-gal-GP. In addition, an alternative version of H-gal-GP, H-sialgal-GP, which is equally protective, but isolated by affinity chromatography on jacalin lectin rather than peanut lectin, contains a MEP3 component which has no detectable LDNF glycan.