Role of the Interchain Interaction Domain of Chain A in Viscumin Cytotoxicity

The sequence coding for the viscumin (mistletoe lectin I, MLI) A-chain (MLA) was cloned from Viscum album genomic DNA with the use of synthetic primers. This yielded three recombinant (r) MLA variants differing in the number of amino acid substitutions. The rMLA structure and properties were probed using monoclonal antibodies against native MLA. Native MLI B-chain (MLB) was shown to facilitate the rMLA folding. Native MLI and chimeric proteins consisting of rMLA and native MLB did not differ in their cytotoxicity toward 3T3 fibroblastoid cells. Residues were identified that are located in the MLB-contacting region and have a considerable effect on the immunochemical and cytotoxic properties of rMLA.     

Epitope mapping of monoclonal antibodies for the Deinococcus radiodurans bacteriophytochome

Bacteriophytochromes (BphP) are phytochrome‐like light sensing proteins in bacteria, which use biliverdin as a chromophore. In order to study the biochemical properties of the DrBphP protein, five (2B8, 2C11, 3B2, 3D2, and 3H7) anti‐DrBphP monoclonal antibodies were produced through the immunization of mice with purified full‐length DrBphP and DrBphN (1–321 amino acid) proteins, and epitope mapping was then carried out. Among the five antibodies, 2B8 and 2C11 preferentially recognized the N‐terminal region of BphP whereas 3B2, 3D2, and 3H7 showed preference for the C‐terminal region. We performed further epitope mapping using recombinant truncated BphP proteins to narrow down their target sequences. The results demonstrated that each of the five monoclonal antibodies recognized different regions on the DrBphP protein. Additionally, epitopes of 2B8 and 3H7 antibodies were discovered to be shorter than 10 amino acids (2B8: RDPLPFFPP, 3H7: PGEIEEA). These two antibodies with such specific recognition epitopes could be especially valuable for developing new peptide tags for protein detection and purification.     

Epitope mapping and features of the epitope for monoclonal antibodies inhibiting enzymatic activity of Helicobacter pylori urease

Two characteristic monoclonal antibodies (HpU-2 and -18) out of 26 monoclonal antibodies (HpU-1 approximately 26) produced against Helicobacter pylori (H. pylori) urease showed a strong inhibitory effect against the enzymatic activity of the urease. Epitope mapping about some monoclonal antibodies of the HpU-series inhibiting enzymatic activity was performed by using a surface plasmon resonance apparatus and by digesting H. pylori urease with trypsin, followed by mass spectroscopy. The sequences of the epitopes recognized by HpU-2 and -18 were SVELIDIGGNRRIFGFNALVDR (22 mer) and IFGFNALVDR (10 mer), respectively. The former sequence is present as a part of a loop structure at a position close to the C-terminal of the alpha-subunit of H. pylori urease, although it has been suggested that the active site of the urease resides in the beta-subunit. The above peptide (22 mer) was chemically synthesized in a linear and cyclic form, and its conjugate with BSA was immunized in rabbits. The resultant serum induced by the linear form could specifically bind to H. pylori infecting human gastric mucosa. These results suggest that the above sequence (22 mer) must be an important epitope, although it locates in the alpha-subunit but not in the beta-subunit.     

Mapping and Characterization of a Sequential Epitope on the Rabies Virus Glycoprotein Which Is Recognized by a Neutralizing Monoclonal Antibody,RG719

We have established a murine hybridoma cell line RG719 which produces a rabies virus-neutralizing IgM-type monoclonal antibody (referred to as MAb RG719). Immunoblot analysis indicated that the antibody recognized a sequential epitope of G protein. Among four rabies virus strains tested, the antigenicity to MAb RG719 was absent from the Nishigahara strain, while the other three strains (HEP, ERA and CVS) reacted to the MAb. Studies with deletion mutants of the G protein indicated that the epitope was located in a middle region of the primary structure of G protein, ranging from position 242 to 300. By comparing the estimated amino acid sequence of the four strains, we found in this region two amino acids (at positions 263 and 291) which are common to three of those strains but are not shared by the Nishigahara strain. The site-directed point mutagenesis revealed that replacement of phenylalanine-263 by leucine destroyed the epitope of the HEP G protein, while the epitope was generated on the Nishigahara G protein whose leucine-263 was replaced by phenylalanine. These observations suggest that phenylalanine-263 is essential for constructing the epitope for MAb RG719. The synthetic 20-mer peptide produced by mimicking the amino acid sequence (ranging from amino acid positions 249 to 268) of the presumed epitope region was shown to bind specifically to MAb RG719 and also to raise the virus-neutralizing antibodies in rabbits. Vaccination with the HEP vaccine produced in Japan induced in humans and rabbits production of significant amounts of the antibodies which reacted with the 20-mer peptide.     

Epitope Specificity of a Monoclonal Antibody Generated against the Dissociated CFA/I Fimbriae of Enterotoxigenic Escherichia coli

A monoclonal antibody (MAb 84) raised against the dissociated CFA/I fimbriae of enterotoxigenic Escherichia coli was characterized with regard to antigen binding and epitope specificity. Enzyme-linked immunosorbent assay (ELISA) showed that MAb 84 had higher affinity to CFA/I subunits than to intact CFA/I fimbriae and recognized a Salmonella flagellin carrying an insert corresponding to amino acids 32 to 45 of the CFA/I subunit. Fine epitope mapping based on the Pepscan technique showed that the peptide ³⁹TFESY⁴³, derived from the sequence of the mature CFA/I subunit, was specifically recognized by MAb 84. The ³⁹TFESY⁴³ sequence is probably not accessible on the surface of the native CFA/I fimbriae since MAb 84 did not bind to intact fimbriae as evaluated in inhibition ELISA tests. Moreover, MAb 84 did not agglutinate fimbriated ETEC cells nor inhibit CFA/I-mediated hemagglutination or the adhesion to Caco-2 cells.     

猪瘟病毒囊膜糖蛋白E2中和表位的定位及其免疫反应性分析

猪瘟病毒(CSFV)囊膜结构糖蛋白E2(gp55)是激发保护性免疫应答的主要抗原蛋白。E^ms和E2与细胞表面受体的相互作用介导病毒对细胞的感染过程。采用抗CSFV中和性单克隆抗体c24／10,淘选噬菌体展示的12肽随机肽库,结合噬菌体拟位免疫反应性分析结果,对CSFV E2蛋白中和表位进行定位。结果表明：F2蛋白的SPTTLR基序(832～837位氨基酸)构成CSFV特异性线性中和表位,基序的第一、二、三位氨基酸是表位与单克隆抗体c24／10结合所必需的氨基酸,也是表位的关键性氨基酸。     

Epitope specificity of two anti‐morphine monoclonal antibodies: In vitro and in silico studies

Monoclonal antibodies (mAbs) against morphine are important in the development of immunotherapeutic and diagnostic methods for the treatment and prevention of drug addiction. By the surface plasmon resonance (SPR) and enzyme immunoassay techniques, we characterized two previously obtained mAbs 3K11 and 6G1 and showed their ability to recognize free morphine and morphine‐containing antigens in different ways because of the epitope specificity thereof. Using the defined amino acid sequences, we obtained three‐dimensional models of the variable regions of Fab fragments of these antibodies and compared them with the known sequence and spatial structure of the anti‐morphine antibody 9B1. Docking simulations are performed to obtain models of the antibodies complexes with morphine. Differences in the models of 3K11 and 6G1 complexes with morphine correlate with their experimentally detected epitope specificity. The results, in particular, can be used for the structure‐based design of the corresponding humanized antibodies. According to our modeling and docking results, the very different modes of morphine binding to mAbs 3K11 and 6G1 are qualitatively similar to those previously reported for cocaine and two anti‐cocaine antibodies. Thus, the obtained structural information brings more insight into the hapten recognition diversity.     

噬菌体显示技术用于抗体表位的筛选

利用噬菌体随机肽库筛选抗TNF单抗表位的研究中,就抗体的选择、肽库富集的检测、筛选得到的表位多肽的验证及如何提高筛选的成功率等,进行了一些初步探索. 实验结果表明,由识别线性抗原位点的抗体较容易筛选到噬菌体呈现表位,具有较强中和活性的抗体,因多识别空间构型抗原位点而增加筛选难度. NC膜斑点印迹、ELISA及DNA测序均可作为筛选富集的检测方法. 用与天然抗原同源比较的方法及竞争性ELISA分析,可以帮助确定噬菌体呈现多肽是否是抗体表位.     

Epitope mapping of Borrelia burgdorferi OspC protein in homodimeric fold

In current work, we used recombinant OspC protein derived from B. afzelii strain BRZ31 in the native homodimeric fold for mice immunization and following selection process to produce three mouse monoclonal antibodies able to bind to variable parts of up to five different OspC proteins. Applying the combination of mass spectrometry assisted epitope mapping and affinity based theoretical prediction we have localized regions responsible for antigen‐antibody interactions and approximate epitopes' amino acid composition. Two mAbs (3F4 and 2A9) binds to linear epitopes located in previously described immunogenic regions in the exposed part of OspC protein. The third mAb (2D1) recognises highly conserved discontinuous epitope close to the ligand binding domain 1.     

Epitope mapping and identification of amino acids critical for mouse IgG-binding to linear epitopes on Gly m Bd 28K

Gly m Bd 28K is one of the major allergens in soybeans, but there is limited information on its IgG-binding epitopes. Thirty-four overlapping peptides that covered the entire sequence of Gly m Bd 28K were synthesized, and 3 monoclonal antibodies against Gly m Bd 28K were utilized to identify the IgG-binding regions of Gly m Bd 28K. Three dominant peptides corresponding to ²⁸GDKKSPKSLFLMSNS⁴²(G28-S42), ⁵⁶LKSHGGRIFYRHMHI⁷⁰(L56-I70), and ¹⁵⁴ETFQSFYIGGGANSH¹⁶⁸(E154-H168) were recognized. L56-I70 is the most important epitope, and a competitive ELISA indicated that it could inhibit the binding of monoclonal antibody to Gly m Bd 28K protein. Alanine scanning of L56-I70 documented that F64, Y65, and R66 were the critical amino acids of this epitope. Two bioinformatics tools, ABCpred and BepiPred, were used to predict the epitopes of Gly m Bd 28K, and the predictions were compared with the epitopes that we had located by monoclonal antibodies.     

Identification of a Phosphatase-Sensitive Epitope of Rabies Virus Nucleoprotein Which Is Recognized by a Monoclonal Antibody 5-2-26

We have investigated a phosphatase-sensitive sequential epitope of the nucleoprotein (N), one of the phosphoproteins of rabies virus, which is recognized by the monoclonal antibody (MAb) #5-2-26. The epitope was shared in common by all of the rabies virus strains we tested, including the HEP, ERA, CVS and Japanese strains (Nishigahara and Komatsukawa). Thin layer chromatography of the acid hydrolyzates of ³²P-labeled N protein showed that the protein contained phosphoserine and phospho-threonine at a molar ratio of about 4 to 1, while no phosphotyrosine was detected. Immunoprecipitation studies with several deletion mutants of the N protein showed that the epitope is located in a region spanning from amino acid 344 to 415. If the phosphatase-sensitive epitope is located at or near the phosphoamino acid, the location of the latter could be narrowed further to a region from amino acid 354 to 389 by comparing the amino-acid sequences among the viral strains. To examine this assumption, point mutation was introduced by amino-acid substitution with alanine at either of five potential phosphorylation sites (i.e., positions 354, 375, 377, 386 and 389) in the 354–389 region. Among those, only one substitution, at position 389, greatly affected the antigenicity. Substitution of serine-389 by threonine also reduced the antigenicity. These results strongly suggest that serine-389 is a phosphorylation site and essential for constructing or stabilizing the antigenic structure for MAb 5-2-26.     

Localization of the HIV-1 gp120 Conformational Epitope Recognized by Virus-Neutralizing Monoclonal Antibodies 2G12

A phage peptide library was used to select peptides interacting with virus-neutralizing monoclonal antibodies (mAb) 2G12 which recognize a discontinuous surface epitope of HIV-1 gp120. With the published X-ray data, gp120 regions involved in the antigenic determinant were predicted. Binding with mAb 2G12 was ascribed to Thr297, Phe383, Tyr384, Arg419, Ile240, Thr415, Leu416, Pro417, Lys421, and Trp112. Though distant in the gp120 sequence, these residues are close in space and form the 2G12 epitope on the gp120 surface.     

Epitope characterization of an anti‐PD‐L1 antibody using orthogonal approaches

The binding of programmed death ligand 1 protein (PD‐L1) to its receptor programmed death protein 1 (PD‐1) mediates immunoevasion in cancer and chronic viral infections, presenting an important target for therapeutic intervention. Several monoclonal antibodies targeting the PD‐L1/PD‐1 signaling axis are undergoing clinical trials; however, the epitopes of these antibodies have not been described. We have combined orthogonal approaches to localize and characterize the epitope of a monoclonal antibody directed against PD‐L1 at good resolution and with high confidence. Limited proteolysis and mass spectrometry were applied to reveal that the epitope resides in the first immunoglobulin domain of PD‐L1. Hydrogen–deuterium exchange mass spectrometry (HDX‐MS) was used to identify a conformational epitope comprised of discontinuous strands that fold to form a beta sheet in the native structure. This beta sheet presents an epitope surface that significantly overlaps with the PD‐1 binding interface, consistent with a desired PD‐1 competitive mechanism of action for the antibody. Surface plasmon resonance screening of mutant PD‐L1 variants confirmed that the region identified by HDX‐MS is critical for the antibody interaction and further defined specific residues contributing to the binding energy. Taken together, the results are consistent with the observed inhibitory activity of the antibody on PD‐L1‐mediated immune evasion. This is the first report of an epitope for any antibody targeting PD‐L1 and demonstrates the power of combining orthogonal epitope mapping techniques. Copyright © 2015 John Wiley & Sons, Ltd.     

Epitope characterization of anti-JAM-A antibodies using orthogonal mass spectrometry and surface plasmon resonance approaches

Junctional adhesion molecule-A (JAM-A) is an adherens and tight junction protein expressed by endothelial and epithelial cells and associated with cancer progression. We present here the extensive characterization of immune complexes involving JAM-A antigen and three monoclonal antibodies (mAbs), including hz6F4-2, a humanized version of anti-tumoral 6F4 mAb identified by a functional and proteomic approach in our laboratory. A specific workflow that combines orthogonal approaches has been designed to determine binding stoichiometries along with JAM-A epitope mapping determination at high resolution for these three mAbs. Native mass spectrometry experiments revealed different binding stoichiometries and affinities, with two molecules of JAM-A being able to bind to hz6F4-2 and F11 Fab, while only one JAM-A was bound to J10.4. Surface plasmon resonance indirect competitive binding assays suggested epitopes located in close proximity for hz6F4-2 and F11. Finally, hydrogen-deuterium exchange mass spectrometry was used to precisely identify epitopes for all mAbs. The results obtained by orthogonal biophysical approaches showed a clear correlation between the determined epitopes and JAM-A binding characteristics, allowing the basis for molecular recognition of JAM-A by hz6F4-2 to be definitively established for the first time. Taken together, our results highlight the power of MS-based structural approaches for epitope mapping and mAb conformational characterization.     

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.     

Structure and Conformational Properties of the HIVThailand gp120 Immunodominant Epitope

NMR data and the previously developed theoretical method were used to determine the three-dimensional structure of the immunodominant epitope (IDE) of the HIV_Thailand protein gp120. The best energy IDE conformers consistent with the theoretical and experimental data were calculated, and their ensemble was shown to give rise to the main chain folds found earlier in examining the HIV_MN IDE structure. The gp120 IDE is supposed to behave as a metastable oligopeptide that, depending on the microenvironment, largely assumes one of the conformations from the ensemble. The results are discussed in the light of literature data on HIV-1 IDE structure.     

Epitope scanning reveals gain and loss of strain specific antibody binding epitopes associated with the conversion of normal cellular prion to scrapie prion

We used anti-prion (PrP) monoclonal antibodies (Mabs) in different combinations to scan changes in the availability of antibody binding epitopes--using an epitope scanning assay--in brain homogenates from normal mice, and from mice infected with either ME7 or 139 A strains of infectious scrapie prion (PrPSc). In ME7-infected brains, the epitope detected by the Mab pair 8B4/8H4 is reduced, while the epitope detected by the Mab pair 8F9/11G5 is increased. Mab 8F9/11G5 detect a conformational epitope on PrPSc because the rise in Mab 8F9/11G5 binding is sensitive to a denaturing agent but resistant to proteinase K (PK). While the increase in Mab 8F9/11G5 binding correlates with the presence of PK-resistant PrP and clinical signs of infection, the reduction in Mab 8B4/8H4 binding is detected earlier. Fractionation of the ME7-infected brain homogenate in sucrose gradient revealed that the PrPSc species detected by the epitope scanning assay are heterogeneous in size, with a molecular mass of approximately > or = 2000-kDa. We also investigated whether these findings were applicable to two other strains of PrPSc, namely 87 V and 22 L. We found that the decrease in Mab 8B4/8H4 binding detected in ME7-infected brains was also detected in 87 V-infected brains but not in 22 L-infected brains. In contrast, the increase in Mab 8F9/11G5 binding detected in ME7- and 139 A-infected brains was also detected in 22 L-infected brains but not in 87 V-infected brains. Therefore, each prion strain has its unique conformation, and we can monitor the conversion of normal cellular prion (PrPC) to PrPSc based on the changes in the antibody binding patterns. The epitope can be decreased or increased, linear or conformational, detected late or early during infection, in a strain specific manner.     

Identification of the epitope for anti-cystatin C antibody

Human cystatin C (hCC), like many other amyloidogenic proteins, has been shown to form dimers by exchange of subdomains of the monomeric protein. Considering the model of hCC fibrillogenesis by propagated domain swapping, it seems possible that inhibition of this process should also suppress the entire process of dimerization and fibrillogenesis which leads to specific amyloidosis (hereditary cystatin C amyloid angiopathy (HCCAA)). It was reported that exogenous agents like monoclonal antibody against cystatin C are able to suppress formation of cystatin C dimers. In the effort to find a way of controlling the cystatin fibrillization process, the interactions between monoclonal antibody Cyst-13 and cystatin C were studied in detail. The present work describes the determination of the epitope of hCC to a monoclonal antibody raised against cystatin C, Cyst-13, by MALDI mass spectrometry, using proteolytic excision of the immune complex. The shortest epitope sequence was determined as hCC(107-114). Affinity studies of synthetic peptides revealed that the octapeptide with epitope sequence does not have binding ability to Cyst-13, whereas its longer counterpart, hCC(105-114), binds the studied antibody. The secondary structure of the peptides with epitope sequence was studied using circular dichroism and NMR spectroscopy.     

戊肝病毒Th表位肽免疫可增强其载体蛋白的体液免疫应答

戊型肝炎病毒衣壳蛋白内包含一个强H-2d限制性Th表位P34。以该表位肽免疫BALB/c鼠,其脾细胞能够在体外识别重组戊型肝炎病毒衣壳蛋白,剔除实验表明应答细胞几乎完全是CD4 T细胞,证明P34表位肽能有效诱导产生特异性Th细胞。以P34肽初免小鼠,再以包含该表位的重组戊型肝炎病毒抗原(E2)免疫,结果表明,10μg、20μgE2免疫组在免疫后第1周即有部分小鼠产生抗体,到第3周所有小鼠均能够产生抗体;而对照肽P18初免的小鼠,以20μgE2加强免疫亦无法诱导小鼠产生抗体。这表明,Th表位肽P34初免诱导产生的Th细胞能够有效促进小鼠对携带该表位的载体蛋白的体液免疫应答。