Epitope Analysis of Soybean Major Allergen Gly m Bd 30K Recognized by the Mouse Monoclonal Antibody Using Overlapping Peptides

The epitopes of the major soybean allergen, Gly m Bd 30K, recognized by mouse monoclonal antibodies H6 and F5 were investigated by using synthetic peptides bound to pins. The epitopes are shown to be localized in peptide ³¹QGGCGRGWAFSATGAI-EA⁴⁸ for H6, and in ¹¹⁵ DKVTIDGYETLIMSDEST¹³² for F5.     

C-Terminal 23 kDa polypeptide of soybean Gly m Bd 28 K is a potential allergen

Gly m Bd 28 K is a major soybean (Glycine max Merr.) glycoprotein allergen. It was originally identified as a 28 kDa polypeptide in soybean seed flour. However, the full-length protein is encoded by an open reading frame (ORF) of 473 amino acids, and contains a 23 kDa C-terminal polypeptide of as yet unknown allergenic and structural characteristics. IgE-binding (allergenic potential) of the Gly m Bd 28 K protein including the 23 kDa C-terminal portion as well as shorter fragments derived from the full-length ORF were evaluated using sera from soy-sensitive adults. All of these sera contained IgE that efficiently recognized the C-terminal region. Epitope mapping demonstrated that a dominant linear C-terminal IgE binding epitope resides between residues S256 and A270. Alanine scanning of this dominant epitope indicated that five amino acids, Y260, D261, D262, K264 and D266, contribute most towards IgE-binding. A model based on the structure of the subunit of soybean -conglycinin revealed that Gly m Bd 28 K contains two cupin domains. The dominant epitope is on the edge of the first -sheet of the C-terminal cupin domain and is present on a potentially solvent-accessible loop connecting the two cupin domains. Thus, the C-terminal 23 kDa polypeptide of Gly m Bd 28 K present in soy products is allergenic and apparently contains at least one immunodominant epitope near the edge of a cupin domain. This knowledge could be helpful in the future breeding of hypoallergenic soybeans.Abbreviations Ara h 1 Arachis hypogaea allergen 1 - Ara h 3 Arachis hypogaea allergen 3 - BCA Bicinchoninic acid - Gly m Bd 28 K Glycine max band 28 kDa allergen - Gly m Bd 30 K Glycine max band 30 kDa allergen - Gly m Bd 68 K Glycine max band 68 kDa allergen - IgE Immunoglobulin E     

Identification of the 23-kDa peptide derived from the precursor of Gly m Bd 28K, a major soybean allergen, as a new allergen

One of the major soybean allergens, Gly m Bd 28K, is suggested to be biosynthesized as a preproprotein form, which would be composed of a signal peptide, Gly m Bd 28K and the C-terminal peptide (the 23-kDa peptide). However, the 23-kDa peptide has never been characterized. In the present study, we prepared a monoclonal antibody (mAb) against a recombinant 23-kDa peptide expressed in Escherichia coli to detect the 23-kDa peptide in soybean. Several proteins were detected by immunoblotting with the mAb. All of the proteins were shown to have the identical N-terminal amino acid sequence, suggesting that the proteins correspond to the C-terminal part of the Gly m Bd 28K precursor. Furthermore, Gly m Bd 28K and the 23-kDa peptide were observed to come out at the 21st day after flowering and to locate in the crystalloid part of protein storage vacuoles in growing cotyledons. Some of the 23-kDa peptides were shown to be glycoproteins with an N-linked glycan moiety and exhibited the binding to IgE antibodies in the sera of patients sensitive to soybean. The binding of the peptides to IgE antibodies was suggested to be predominantly dependent on their glycan moiety. This study proves the occurrence of the 23-kDa peptide in soybean and that it is a new allergen.     

Proteomic Analysis of Allergen and Antinutritional Proteins in Wild and Cultivated Soybean Seeds

In this study, profiles of allergen and antinutritional proteins both in wild (Glycine soja) and cultivated (Glycine max) soybean seeds were compared. We used two-dimensional polyacrylamide gel electrophoresis (2D-PAGE) for the separation of proteins at two different pH ranges and applied a combined matrix-assisted laser desorption/ionization time of flight mass spectrometry (MALDI-TOF-MS) and liquid chromatography mass spectrometry (LC-MS/MS) analysis for the identification of proteins. Although overall distribution patterns of the allergen (Gly m Bd 60K, Gly m Bd 30K, Gly m Bd 28K) and antinutritional proteins (trypsin inhibitors and lectin) appeared similar, there was remarkable variation in the number and intensity of the protein spots between wild and cultivated genotypes. The wild genotype showed fifteen polypeptides of Gly m Bd 60K and three polypeptides of trypsin inhibitors. The cultivated genotypes showed twelve polypeptides of Gly m Bd 60K and two polypeptides of trypsin inhibitors. In contrast, the cultivated genotype showed two polypeptides of Gly m Bd 30K and three polypeptides of lectin and the wild genotype showed two and one polypeptides of Gly m Bd 30K and lectin, respectively. Two polypeptides of Gly m Bd 28K were observed in both genotypes. This is the first study reporting the comparative analysis of allergen and antinutritional proteins in both wild and cultivated soybean genotypes using combined proteomic tools.     

Synthesis and degradation of the major allergens in developing and germinating soybean seed

Gly m Bd 28K,Gly m Bd 30K and Gly m Bd 60K are the major soybean(Glycine max(L.)Merr.)allergens limiting the consumption of a good protein source for sensitive individuals.However,little is known about their temporal-spatial expression during seed development and upon germination.The present data shows that soy allergens accumulated in both the embryonic axes and cotyledon,but expression patterns differed depending on the specific allergen.Allergens accumulated sooner and to a greater level in cotyledons than in embryonic axes.Gly m Bd 28 began at 14 d after flowering,7 to 14 d earlier than Gly m Bd 30K and Gly m Bd 60K.Comparatively,their degradation was faster and more profound in embryonic axes than in cotyledons.Gly m Bd 60K began to decline at 36 h after imbibition and remained detectable up to 108 h in cotyledons.In contrast,the Glym Bd 60K protein was reduced at 24 h,and eventually disappeared at 96 h.In cotyledons Gly m Bd 28K first declined at 24 h,then increased from 36 h to 48 h,followed by its large reduction at 72 h after seed germination.These findings provide useful information on soy allergen biosynthesis and will help move forward towards developing a hypoallergenic soybean for safer food.     

Characterization of periplasmic protein BP26 epitopes of Brucella melitensis reacting with murine monoclonal and sheep antibodies

More than 35,000 new cases of human brucellosis were reported in 2010 by the Chinese Center for Disease Control and Prevention. An attenuated B. melitensis vaccine M5-90 is currently used for vaccination of sheep and goats in China. In the study, a periplasmic protein BP26 from M5-90 was characterized for its epitope reactivity with mouse monoclonal and sheep antibodies. A total of 29 monoclonal antibodies (mAbs) against recombinant BP26 (rBP26) were produced, which were tested for reactivity with a panel of BP26 peptides, three truncated rBP26 and native BP26 containing membrane protein extracts (NMP) of B. melitensis M5-90 in ELISA and Western-Blot. The linear, semi-conformational and conformational epitopes from native BP26 were identified. Two linear epitopes recognized by mAbs were revealed by 28 of 16mer overlapping peptides, which were accurately mapped as the core motif of amino acid residues ⁹³DRDLQTGGI¹⁰¹ (position 93 to 101) or residues ¹⁰⁴QPIYVYPD¹¹¹, respectively. The reactivity of linear epitope peptides, rBP26 and NMP was tested with 137 sheep sera by ELISAs, of which the two linear epitopes had 65–70% reactivity and NMP 90% consistent with the results of a combination of two standard serological tests. The results were helpful for evaluating the reactivity of BP26 antigen in M5-90.     

大豆(Glycine max(L.)Merr.)致敏蛋白Gly m Bd 30K检测方法及低致敏优异种质鉴定

Gly m Bd 30K蛋白是大豆中主要的免疫显性过敏原之一,会引起人和牲畜腹泻和肠道炎症等过敏反应.因此,发掘低Gly m Bd 30K蛋白含量优异种质对于培育优质大豆品种具有重要意义.为了获得致敏蛋白Gly m Bd 30K低含量的优异种质,根据Gly m Bd 30K蛋白的190-379aa多肽序列制备多克隆抗体...     

Comprehensive Mapping Antigenic Epitopes of NS1 Protein of Japanese Encephalitis Virus with Monoclonal Antibodies

Japanese encephalitis virus (JEV) non-structural protein 1 (NS1) contributes to virus replication and elicits protective immune responses during infection. JEV NS1-specific antibody responses could be a target in the differential diagnosis of different flavivirus infections. However, the epitopes on JEV NS1 are poorly characterized. The present study describes the full mapping of linear B-cell epitopes in JEV NS1. We generated eleven NS1-specific monoclonal antibodies from mice immunized with recombinant NS1. For epitope mapping of monoclonal antibodies, a set of 51 partially-overlapping peptides covering the entire NS1 protein were expressed with a GST-tag and then screened using monoclonal antibodies. Through enzyme-linked immunosorbent assay (ELISA), five linear epitope-containing peptides were identified. By sequentially removing amino acid residues from the carboxy and amino terminal of peptides, the minimal units of the five linear epitopes were identified and confirmed using monoclonal antibodies. Five linear epitopes are located in amino acids residues ⁵AIDITRK¹¹, ⁷²RDELNVL⁷⁸, ²⁵¹KSKHNRREGY²⁶⁰, ²⁶⁹DENGIVLD²⁷⁶, and ³⁴¹DETTLVRS³⁴⁸. Furthermore, it was found that the epitopes are highly conserved among JEV strains through sequence alignment. Notably, none of the homologous regions on NS1 proteins from other flaviviruses reacted with the MAbs when they were tested for cross-reactivity, and all five epitope peptides were not recognized by sera against West Nile virus or Dengue virus. These novel virus-specific linear B-cell epitopes of JEV NS1 would benefit the development of new vaccines and diagnostic assays.     

Cloning of cDNA encoding a soybean allergen, Gly m Bd 28K

A cDNA clone encoding a soybean allergen, Gly m Bd 28K, has been isolated. The clone has a 1567-bp cDNA insert with a 1419-bp open reading frame and a 148-bp 3'-untranslated region, followed by a polyadenylation tail. The open reading frame was shown to encode a polypeptide composed of 473 amino acids. The chemically determined amino acid sequences of the peptides obtained from the allergen, including its N-terminal peptide, were shown to be contained in the N-terminal region of the amino acid sequence deduced from the cDNA, showing that the first half of the cDNA encodes the allergen with a preceding segment of 21 amino acids. The peptide fragment including the allergen was expressed as a fusion protein with glutathione S-transferase in Escherichia coli and immunoblotted with the sera of soybean-sensitive patients and the monoclonal antibody against the allergen. Furthermore, homology analyses demonstrate that the polypeptide for the cDNA exhibits high homology with the MP27/MP32 proteins in pumpkin seeds and the carrot globulin-like protein. This finding suggests that the polypeptide may consist of a 21-amino acid segment as a part of the signal peptide and the proprotein, which may be converted to two mature proteins, Gly m Bd 28K and a 23-kDa protein, during the development of soybean cotyledons.     

Identification of a new HLA-A*0201-restricted cytotoxic T lymphocyte epitope from CML28

Identification of cytotoxic T lymphocyte (CTL) epitopes from additional tumor antigens is essential for the development of specific immunotherapy of malignant tumors. CML28, a recently discovered cancer-testis (CT) antigen from chronic myelogenous leukemia, is considered to be a promising target of tumor-specific immunotherapy. Because HLA-A*0201 is one of the most common histocompatibility molecule in Chinese, we aim at identifying CML28 peptides presented by HLA-A*0201. A panel of CML28-derived antigenic peptides was predicted using a computer-based program. Four peptides with highest predicted score were synthesized and tested for their binding affinities to HLA-A*0201 molecule. Then these peptides were assessed for their immunogenicity to elicit specific immune responses mediated by CTLs both in vitro, from PBMCs sourced from four healthy HLA-A*0201⁺ donors, and in vivo, in HLA-A*0201 transgenic mice. One of the tested peptides, CML28_(173–181), induced peptide-specific CTLs in vitro as well as in vivo, which could specifically secrete IFN-γ and lyse major histocompatibility complex (MHC)-matched tumor cell lines endogenously expressing CML28 antigen and CML28_(173–181) pulsed Jurkat-A2/Kb cells, respectively. These results demonstrate that CML28_(173–181) is a naturally processed and presented CTL epitope with HLA-A*0201 motif and has a promising immunogenicity both in vitro and in vivo. As CML28 is expressed in a large variety of histological tumors besides chronic myelogenous leukemia, we propose that the newly identified epitope, CML28_(173–181), would be of potential use in peptide-based, cancer-specific immunotherapy against a broad spectrum of tumors.     

Genetic modification removes an immunodominant allergen from soybean

The increasing use of soybean (Glycine max) products in processed foods poses a potential threat to soybean-sensitive food-allergic individuals. In vitro assays on soybean seed proteins with sera from soybean-sensitive individuals have immunoglobulin E reactivity to abundant storage proteins and a few less-abundant seed proteins. One of these low abundance proteins, Gly m Bd 30 K, also referred to as P34, is in fact a major (i.e. immunodominant) soybean allergen. Although a member of the papain protease superfamily, Gly m Bd 30 K has a glycine in the conserved catalytic cysteine position found in all other cysteine proteases. Transgene-induced gene silencing was used to prevent the accumulation of Gly m Bd 30 K protein in soybean seeds. The Gly m Bd 30 K-silenced plants and their seeds lacked any compositional, developmental, structural, or ultrastructural phenotypic differences when compared with control plants. Proteomic analysis of extracts from transgenic seed detected the suppression of Gly m Bd 30 K-related peptides but no other significant changes in polypeptide pattern. The lack of a collateral alteration of any other seed protein in the Gly m Bd 30 K-silenced seeds supports the presumption that the protein does not have a role in seed protein processing and maturation. These data provide evidence for substantial equivalence of composition of transgenic and non-transgenic seed eliminating one of the dominant allergens of soybean seeds.     

乳房链球菌GapC蛋白的表达及其B细胞抗原表位的预测与鉴定

乳房链球菌Streptococcus uberis的GapC蛋白是一种位于该菌表面的具有甘油醛-3-磷酸脱氢酶活性的蛋白,其参与细胞活动,表现出多种生物学活性,此外还具有良好的抗原性。文中旨在对乳房链球菌GapC蛋白可能的B细胞抗原表位进行预测,分析和验证候选表位肽的免疫原性。利用S. uberis分离株RF5-1克隆gapC基因,构建重组表达质粒pET-28a-GapC,诱导表达GapC重组蛋白,并以纯化蛋白免疫家兔,获得抗GapC多抗。利用生物信息学软件预测并分析GapCB细胞抗原表位的三维结构和空间位置及对GapC蛋白及表位的同源性比较。结果表明,表达纯化了44kDa的GapC蛋白具有良好的反应性。利用表位预测软件筛选并合成针对S.uberisGapC蛋白的6个线性和3个构象优势B细胞表位多肽,三维结构的分析显示,筛选的多肽具有良好的抗原表位形成条件。以纯化的S.uberis GapC蛋白免疫家兔制备多抗,通过间接ELISA对抗原表位进行鉴定。ELISA检测结果显示,9条抗原表位肽均可不同程度地与抗GapC多抗反应,其中表位266AANDSYGYTEDPIVSSD282与多抗反应...     

Significance of Monoclonal Antibodies against the Conserved Epitopes within Non-Structural Protein 3 Helicase of Hepatitis C Virus

Nonstructural protein 3 (NS3) of hepatitis C virus (HCV), codes for protease and helicase carrying NTPase enzymatic activities, plays a crucial role in viral replication and an ideal target for diagnosis, antiviral therapy and vaccine development. In this study, monoclonal antibodies (mAbs) to NS3 helicase were characterized by epitope mapping and biological function test. A total of 29 monoclonal antibodies were produced to the truncated NS3 helicase of HCV-1b (T1b-rNS3, aa1192–1459). Six mAbs recognized 8/29 16mer peptides, which contributed to identify 5 linear and 1 discontinuous putative epitope sequences. Seven mAbs reacted with HCV-2a JFH-1 infected Huh-7.5.1 cells by immunofluorescent staining, of which 2E12 and 3E5 strongly bound to the exposed linear epitope ¹²³¹PTGSGKSTK¹²³⁹ (EP05) or core motif ¹³⁷³IPFYGKAI¹³⁸⁰ (EP21), respectively. Five other mAbs recognized semi-conformational or conformational epitopes of HCV helicase. MAb 2E12 binds to epitope EP05 at the ATP binding site of motif I in domain 1, while mAb 3E5 reacts with epitope EP21 close to helicase nucleotide binding region of domain 2. Epitope EP05 is totally conserved and EP21 highly conserved across HCV genotypes. These two epitope peptides reacted strongly with 59–79% chronic and weakly with 30–58% resolved HCV infected blood donors, suggesting that these epitopes were dominant in HCV infection. MAb 2E12 inhibited 50% of unwinding activity of NS3 helicase in vitro. Novel monoclonal antibodies recognize highly conserved epitopes at crucial functional sites within NS3 helicase, which may become important antibodies for diagnosis and antiviral therapy in chronic HCV infection.     

Targeting a Cross-Reactive Gly m 5 Soy Peptide as Responsible for Hypersensitivity Reactions in a Milk Allergy Mouse Model

Background

Cross-reactivity between soybean allergens and bovine caseins has been previously reported. In this study we aimed to map epitopes of the major soybean allergen Gly m 5 that are co-recognized by casein specific antibodies, and to identify a peptide responsible for the cross-reactivity.

Methods

Cow''s milk protein (CMP)-specific antibodies were used in different immunoassays (immunoblotting, ELISA, ELISA inhibition test) to evaluate the in vitro recognition of soybean proteins (SP). Recombinant Gly m 5 (α), a truncated fragment containing the C-terminal domain (α-T) and peptides of α-T were obtained and epitope mapping was performed with an overlapping peptide assay. Bioinformatics tools were used for epitope prediction by sequence alignment, and for modelling the cross-recognized soy proteins and peptides. The binding of SP to a monoclonal antibody was studied by surface Plasmon resonance (SPR). Finally, the in vivo cross-recognition of SP was assessed in a mouse model of milk allergy.

Results

Both α and α-T reacted with the different CMP-specific antibodies. α-T contains IgG and IgE epitopes in several peptides, particularly in the peptide named PA. Besides, we found similar values of association and dissociation constants between the α-casein specific mAb and the different milk and soy components. The food allergy mouse model showed that SP and PA contain the cross-reactive B and T epitopes, which triggered hypersensitivity reactions and a Th2-mediated response on CMP-sensitized mice.

Conclusions

Gly m 5 is a cross-reactive soy allergen and the α-T portion of the molecule contains IgG and IgE immunodominant epitopes, confined to PA, a region with enough conformation to be bound by antibodies. These findings contribute to explain the intolerance to SP observed in IgE-mediated CMA patients, primarily not sensitised to SP, as well as it sets the basis to propose a mucosal immunotherapy for milk allergy using this soy peptide.     

Interaction structure of the complex between neuroprotective factor humanin and Alzheimer's β‐amyloid peptide revealed by affinity mass spectrometry and molecular modeling

Humanin (HN) is a linear 24‐aa peptide recently detected in human Alzheimer's disease (AD) brain. HN specifically inhibits neuronal cell death in vitro induced by ß‐amyloid (Aß) peptides and by amyloid precursor protein and its gene mutations in familial AD, thereby representing a potential therapeutic lead structure for AD; however, its molecular mechanism of action is not well understood. We report here the identification of the binding epitopes between HN and Aß(1–40) and characterization of the interaction structure through a molecular modeling study. Wild‐type HN and HN‐sequence mutations were synthesized by SPPS and the HPLC‐purified peptides characterized by MALDI‐MS. The interaction epitopes between HN and Aß(1–40) were identified by affinity‐MS using proteolytic epitope excision and extraction, followed by elution and mass spectrometric characterization of the affinity‐bound peptides. The affinity‐MS analyses revealed HN(5–15) as the epitope sequence of HN, whereas Aß(17–28) was identified as the Aß interaction epitope. The epitopes and binding sites were ascertained by ELISA of the complex of HN peptides with immobilized Aß(1–40) and by ELISA with Aß(1–40) and Aß‐partial sequences as ligands to immobilized HN. The specificity and affinity of the HN‐Aß interaction were characterized by direct ESI‐MS of the HN‐Aß(1–40) complex and by bioaffinity analysis using a surface acoustic wave biosensor, providing a K_D of the complex of 610 n m . A molecular dynamics simulation of the HN‐Aß(1–40) complex was consistent with the binding specificity and shielding effects of the HN and Aß interaction epitopes. These results indicate a specific strong association of HN and Aß(1–40) polypeptide and provide a molecular basis for understanding the neuroprotective function of HN. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.     

大豆过敏蛋白与品种改良

食物过敏是一个全世界关注的公共卫生问题。大豆蛋白在食品加工业的广泛应用,对大豆敏感人群带来了潜在的威胁。如何降低大豆过敏原含量提升大豆食品安全已成为日益关注的问题。大豆种子过敏蛋白包括种子贮存蛋白、结构蛋白和防御相关蛋白,其中7S 伴球蛋白的多肽片段Gly m Bd 28K, Gly m Bd 30K和Gly m Bd 60K是三种主要的过敏原。目前通过对过敏蛋白的理化性质、过敏原性和基因结构的认识,运用食品加工工艺、传统育种及基因工程技术等方法,在减少大豆和大豆产品的过敏原性方面已取得一定的进展。本文拟从大豆过敏原的分类、主要过敏原Gly m Bd 28K和Gly m Bd 30K的理化性质及基因结构、大豆过敏蛋白在遗传改良中的应用对大豆过敏蛋白进行综述。     

Identification of a novel HLA-A2-restricted cytotoxic T lymphocyte epitope from cancer-testis antigen PLAC1 in breast cancer

Identification of cytotoxic T lymphocyte (CTL) epitopes from tumor antigens is essential for the development of peptide vaccines against tumor immunotherapy. Among all the tumor antigens, the caner-testis (CT) antigens are the most widely studied and promising targets. PLAC1 (placenta-specific 1, CT92) was considered as a novel member of caner-testis antigen, which expressed in a wide range of human malignancies, most frequently in breast cancer. In this study, three native peptides and their analogues derived from PLAC1 were predicted by T cell epitope prediction programs including SYFPEITHI, BIMAS and NetCTL 1.2. Binding affinity and stability assays in T2 cells showed that two native peptides, p28 and p31, and their analogues (p28-1Y9?V, p31-1Y2L) had more potent binding activity towards HLA-A*0201 molecule. In ELISPOT assay, the CTLs induced by these four peptides could release IFN-γ. The CTLs induced by these four peptides from the peripheral blood mononuclear cells (PBMCs) of HLA-A*02⁺ healthy donor could lyse MCF-7 breast cancer cells (HLA-A*0201⁺, PLAC1⁺) in vitro. When immunized in HLA-A2.1/K^b transgenic mice, the peptide p28 could induce the most potent peptide-specific CTLs among these peptides. Therefore, our results indicated that the peptide p28 (VLCSIDWFM) could serve as a novel candidate epitope for the development of peptide vaccines against PLAC1-positive breast cancer.     

Epitope analysis of human monoclonal antibody specific for rice allergenic protein generated by in vitro immunization

We previously established an in vitro immunization protocol for generating antigen specific human monoclonal antibodies (mAbs). In vitro immunization was performed against the soluble protein of rice allergenic protein (RA), resulting in the generation of three B cell clones, AC7-1/F9, CB7-1/E2 and CB7-8/F5, all of which produce a RA-specific human monoclonal IgM antibody. We attempted to map the epitope regions recognized by thesem Abs to characterize their specificities. We performed two rounds of epitope mapping, rough mapping using 10-mer peptides covering the full-length RA with 5 amino acids overlapping, and fine mapping using 8-mer peptides covering the putative epitope regions from the rough mapping with 1amino acid overlapping. As a result of the fine mapping,we identified the epitope regions of these three mAbs as⁴⁵QVWQDCCRQ⁵⁴L, ⁵⁶AVDDGWCRCGA⁶⁷L and⁹¹FPGCRRG⁹⁸D on the RA molecule and found to be identical. Furthermore, we determined the putative core epitope regions, which are critical for mAb binding to each region, ⁴⁷WQDCC⁵²R and ⁶⁰GWC⁶³R. The information about the epitope region on the RA molecule,which might trigger the allergenic response, would be useful to establish a specific immunotherapy against rice allergy. This revised version was published online in July 2006 with corrections to the Cover Date.     

Identification of cross‐reactive B‐cell epitopes between Bos d 9.0101(Bos Taurus) and Gly m 5.0101 (Glycine max) by epitope mapping MALDI‐TOF MS

Exposure to cow's milk constitutes one of the most common causes of food allergy. In addition, exposure to soy proteins has become relevant in a restricted proportion of milk allergic pediatric patients treated with soy formulae as a dairy substitute, because of the cross‐allergenicity described between soy and milk proteins. We have previously identified several cross‐reactive allergens between milk and soy that may explain this intolerance. The purpose of the present work was to identify epitopes in the purified αS1‐casein and the recombinant soy allergen Gly m 5.0101 (Gly m 5) using an α‐casein‐specific monoclonal antibody (1D5 mAb) through two different approaches for epitope mapping, to understand cross‐reactivity between milk and soy. The 1D5 mAb was immobilized onto magnetic beads, incubated with the peptide mixture previously obtained by enzymatic digestion of the allergens, and the captured peptides were identified by MALDI‐TOF MS analysis. On a second approach, the peptide mixture was resolved by RP‐HPLC and immunodominant peptides were identified by dot blot with the mAb. Finally, recognized peptides were sequenced by MALDI‐TOF MS. This novel MS based approach led us to identify and characterize four peptides on α‐casein and three peptides on Gly m 5 with a common core motif. Information obtained from these cross‐reactive epitopes allows us to gain valuable insight into the molecular mechanisms of cross‐reactivity, to further develop new and more effective vaccines for food allergy.     

Localization of epitopes for antibodies that differentially label sodium channels in skeletal muscle surface and T-tubular membranes

Summary We previously characterized two monoclonal antibodies, A/B2 and L/D3, that bind to the amino-terminus of the sodium channel but produce distinct immunocytochemical patterns in innervated adult skeletal muscle. Because these findings suggested the presence of several channel isoforms, we sought to define the epitopes for each antibody. Five peptides encompassing the amino-terminal 126 residues of the adult skeletal muscle sodium channel were synthesized and tested by radioimmunoassay against each antibody. Both monoclonals bound only to a peptide comprising residues 1–30 (I^1–30). A nested set of peptides within this region was then synthesized and used to compete for antibody binding to II^1–30. L/D3 binding was quantitatively inhibited by oligopeptides 1–30, 7–30, 13–30, and 19–30 but not 25–30, while binding of A/B2 was blocked only by the intact I^1–30 peptide. This data implies that the epitope for L/D3 lies within residues 19–25 while the epitope for A/B2 is contained within residues 1–6. These tentative epitope localizations were confirmed using both proteolytic cleavage of I^1–30 and immunoreactivity of a peptide corresponding to residues 1–12 with A/B2 but not L/D3. Therefore, epitopes for each monoclonal antibody are present in the SkM-1 sequence and are in close proximity in the amino-terminus of the protein. Their characteristic immunocytochemical labeling patterns may reflect differing accessibility of the epitopes in various membrane environments.We wish to thank Dr. John Lambris for helpful discussions. We also thank Ms. Candace Mello and Mr. James Hills for their expert technical assistance. This work was supported in part by NIH Grant NS 18013 (RLB) and by a grant from the W.W. Smith Charitable Trust (SAC). SAC is a Scholar of the Pfizer Scholar's Program for New Faculty.