High-resolution structures reveal how a germline antibody can recognize a range of clinically relevant carbohydrate epitopes. The germline response to a carbohydrate immunogen can be critical to ...survivability, with selection for antibody gene segments that both confer protection against common pathogens and retain the flexibility to adapt to new disease organisms. We show here that antibody S25-2 binds several distinct inner-core epitopes of bacterial lipopolysaccharides (LPSs) by linking an inherited monosaccharide residue binding site with a subset of complementarity-determining regions (CDRs) of limited flexibility positioned to recognize the remainder of an array of different epitopes. This strategy allows germline antibodies to adapt to different epitopes while minimizing entropic penalties associated with the immobilization of labile CDRs upon binding of antigen, and provides insight into the link between the genetic origin of individual CDRs and their respective roles in antigen recognition.
Abstract Lipopolysaccharide (LPS, endotoxin) elicits an immune reaction which is responsible for many of the harmful effects seen in septic shock patients. The eradication of bacteria by antibiotics ...is insufficient to resolve the pathology due to the lack of LPS neutralization. LPS-neutralizing antibodies have been described; however, these were specific for the serotype of the infecting bacteria and thus not useful for the treatment of septic shock patients. Structural analyses revealed that the LPS structures of Escherichia coli and Salmonella are structurally conserved in the inner core region. Using whole LPS and a panel of neoglycoconjugates containing purified LPS oligosaccharides, which we have obtained from all E. coli core types (K-12, R1, R2, R3 and R4), Salmonella enterica , and the mutant strain E. coli J-5, we have identified an epitope which is bound with high affinity by the monoclonal antibody WN1 222-5, which has been shown previously shown to be cross-reactive against a large collection of blood, fecal, and urinary isolates of E. coli , S. enterica , some Citrobacter , independently of the serotype Di Padova, F.E., Brade, H., Barclay, G.R., Poxton, I.R., Liehl, E., Schuetze, E., Kocher, H.P., Ramsay, G., Schreier, M.H., McClelland, D.B., Rietschel, E.T., 1993. A broadly cross-protective monoclonal antibody binding to Escherichia coli and Salmonella lipopolysaccharides. Infect. Immun. 61, 3863–3872. Importantly, WN1 222-5 was protective in various models of endotoxic shock. The minimal structural element necessary for high-affinity binding consists of R1 - α - d -Glc p -(1→3)- l - α - d -Hep p -(1→7)- l - α - d -Hep p 4P- (1→3)- R2 (R1 , R2 =additional sugars of LPS) in which the side-chain heptose and the 4-phosphate on the branched heptose are the main determinants of the epitope. Additional sugars of the outer core (R1 ) enhance the affinity, whereas loss of an intact Kdo region and/or lipid A (R2 ) prevent binding. The identification of the epitope provides the structural basis for the rational development of a potential vaccine against E. coli LPS.
In order to explore the structural basis for adaptability in near germline monoclonal antibodies (mAb), we have examined the specificity of the promiscuous mAb S67-27 to both naturally derived ...carbohydrate antigens and a variety of synthetic nonnatural antigens based on the bacterial lipopolysaccharide component 3-deoxy-α-D-manno-oct-2-ulosonic acid (Kdo). One such analog, a 7-O-methyl (7-O-Me) Kdo disaccharide, was found to bind to the antibody with at least 30-fold higher affinity than any other antigen tested. The structure of S67-27 in complex with this analog and three other naturally occurring Kdo antigens revealed that the enhanced affinity of the mAb for the synthetic analog was accomplished by the strategic positioning of CDR H3 away from a conserved Kdo binding pocket that allowed the formation of new antibody-antigen contacts. Furthermore, the comparison of this structure with the structures of related mAbs revealed how the position and structure of CDR H3 influence the specificity or promiscuity of near-germline carbohydrate-recognizing antibodies by altering the architecture of the combining site.
A NMR study of the binding of the synthetic disaccharides alpha-Kdo-(2-->4)-alpha-Kdo-(2-->O)-allyl 1 (Kdo, 3-deoxy-D-manno-oct-2-ulopyranosonic acid) and alpha-Kdo-(2-->8)-alpha-Kdo-(2-->O)-allyl 2, ...representing partial structures of the lipopolysaccharide epitope of the intracellular bacteria Chlamydia, to corresponding monoclonal antibodies (mAbs) S23-24, S25-39, and S25-2 is presented. The conformations of 1 bound to mAbs S25-39 and of 2 bound to mAbs S23-24 and S25-39 were analyzed by employing transfer-NOESY (trNOESY) and QUIET-trNOESY experiments. A quantitative analysis of QUIET-trNOESY buildup curves clearly showed that S25-39 recognized a conformation of 1 that was similar to the global energy minimum of 1, and significantly deviated from the conformation of 1 bound to mAb S25-2. For disaccharide 2, only a qualitative analysis was possible because of severe spectral overlap. Nevertheless, the analysis showed that all mAbs most likely bound to only one conformational family of 2. Saturation transfer difference (STD) NMR experiments were then employed to analyze the binding epitopes of the disaccharide ligands 1 and 2 when binding to mAbs S23-24, S25-39, and S25-2. It was found that the nonreducing pyranose unit was the major binding epitope, irrespective of the mAb and the disaccharide that were employed. Individual differences were related to the engagement of other portions of the disaccharide ligands.
Ceramide is a pivotal molecule in signal transduction and an essential structural component of the epidermal permeability barrier. The epidermis is marked by a high concentration of ceramide and by a ...unique spectrum of ceramide species: Besides the two ceramide structures commonly found in mammalian tissue, N-acylsphingosine and N-2-hydroxyacyl-sphingosine, six additional ceramides differing in the grade of hydroxylation of either the sphingosine base or the fatty acid have been identified in the epidermis. Here we report on the characterization of an IgM-enriched polyclonal mouse serum against ceramide. In dot blot assays with purified epidermal lipids the antiserum bound to a similar extent to N-acyl-sphingosine (ceramide 2), N-acyl-4-hydroxysphinganine (ceramide 3), and N-(2-hydroxyacyl)-sphingosine (ceramide 5), whereas no specific reaction was detected with glycosylceramides, sphingomyelin, free sphingosine, phospholipids, or cholesterol. In contrast, a monoclonal IgM antibody, also claimed to be specific for ceramide, was shown to bind specifically to sphingomyelin and therefore was not further investigated. In thin-layer chromatography immunostaining with purified lipids a strong and highly reproducible reaction of the antiserum with ceramide 2 and ceramide 5 was observed, whereas the reaction with ceramide 1 and ceramide 3 was weaker and more variable. Ceramide 2 and ceramide 5 were detected in the nanomolar range at serum dilutions of up to 1:100 by dot blot and thin-layer immunostaining. In thin-layer chromatography immunostaining of crude lipid extracts from human epidermis, the antiserum also reacted with N-(2-hydroxyacyl)-4-hydroxysphinganine (ceramide 6) and N-(2-hydroxyacyl)-6-hydroxysphingosine (ceramide 7). Furthermore, the suitability of the antiserum for the detection of endogenous ceramide by immunolight microscopy was demonstrated on cryoprocessed human skin tissue. Double immunofluorescence labeling experiments with the anti-ceramide antiserum and the recently described anti-glucosylceramide antiserum (Brade et al., 2000, Glycobiology 10, 629) showed that both lipids are concentrated in separate epidermal sites. Whereas anti-ceramide stained the dermal and basal epidermal cells as well as the corneocytes, anti-glucosylceramide staining was concentrated in the stratum granulosum. In conclusion, the specificity and sensitivity of the reagent will enable studies on the subcellular distribution and biological functions of endogenous ceramide.
Glucosylceramides (GlcCer) are biosynthetic precursors of glycosphingolipids. They are widely distributed in biological systems where they exhibit numerous biological functions. Studies on the ...localization of glucosylceramides in different tissues have used biochemical methods only since specific antibodies against GlcCer were not previously available. We have characterized two commercially available rabbit antisera which were prepared against GlcCer of plant origin (1-O-(beta-D-glucopyranosyl)-N-acyl-4-hydroxysphinganine; GlcCer-3) or human origin (1-O-(beta-D-glucopyranosyl)-N-acyl-sphingosine; GlcCer-2) and claimed to be specific for GlcCer. The antisera were also able to detect specifically GlcCer species in crude lipid extracts from human epidermis after separation by thin-layer chromatography. The reagents are sensitive since both antisera reacted at dilutions higher than 1:500 with their homologous antigen in the nanogram range in thin layer immunostaining or dot-blot assays. The antisera are specific for GlcCer although they did not differentiate between GlcCer-2 and GlcCer-3 containing sphingosine or 4-hydroxysphinganine. The antisera also reacted with N-stearoyl-DL-dihydroglucocere-broside indicating that the naturally occurring structural variations in the amino alcohol moiety are not determining the specificity. No crossreactivity was observed with other mono- or diglycosylceramides (galactosylceramides, lactosyl-ceramide), free ceramides or structurally unrelated lipids (cholesterol, sphingomyelin, or phospholipids). Therefore, the glycosylmoiety seems to represent the major antigenic determinant. Finally, the antisera also proved to be useful for the immunohistochemical localization of GlcCer in human epidermis by which earlier biochemical data on the distribution of GlcCer in the various epidermal layers were confirmed.
Platelet-activating factor (PAF) induces pulmonary edema and has a key role in acute lung injury (ALI). Here we show that PAF induces pulmonary edema through two mechanisms: acid sphingomyelinase ...(ASM)-dependent production of ceramide, and activation of the cyclooxygenase pathway. Agents that interfere with PAF-induced ceramide synthesis, such as steroids or the xanthogenate D609, attenuate pulmonary edema formation induced by PAF, endotoxin or acid instillation. Our results identify acid sphingomyelinase and ceramide as possible therapeutic targets in acute lung injury.
O-antigen-specific monoclonal antibodies (MAbs) are currently being generated to develop an O-serotyping scheme for the genus Acinetobacter and to provide potent tools to study the diversity of ...O-antigens among Acinetobacter strains. In this report, Acinetobacter baumannii strains from the Czech Republic and from two clonal groups identified in Northwestern Europe (termed clones I and II) were investigated for their reactivity with a panel of O-antigen-specific MAbs generated against Acinetobacter strains from various species. The bacteria were characterized for their ribotype, biotype, and antibiotic susceptibility and the presence of the 8.7-kb plasmid pAN1. By using the combination of these typing profiles, the Czech strains could be classified into four previously defined groups (A. Nemec, L. Janda, O. Melter, and L. Dijkshoorn, J. Med. Microbiol. 48:287-296, 1999): two relatively homogeneous groups of multiresistant strains (termed groups A and B), a heterogeneous group of other multiresistant strains, and a group of susceptible strains. O-antigen reactivity was observed primarily with MAbs generated against Acinetobacter calcoaceticus and Acinetobacter baumannii strains. A comparison of reaction patterns confirmed the previously hypothesized clonal relationship between group A and clone I strains, which are also similar in other properties. The results show that there is limited O-antigen variability among strains with similar geno- and phenotypic characteristics and are suggestive of a high prevalence of certain A. baumannii serotypes in the clinical environment. It is also shown that O-antigen-specific MAbs are useful for the follow-up of strains causing outbreaks in hospitals.