Physiological studies on the utilization of oleic acid by Saccharomyces cerevisiae in relation to microbody development

Twenty one Chlamydia trachomatis reference strains and 40 clinical isolates belonging to the lymphogranuloma venerum (LGV) and trachoma biovars were genotyped by differential restriction mapping of the major-outer-membrane-protein gene (MOMP) obtained by the polymerase-chain reaction (PCR). AluI digestion of the PCR product distinguishes eight MOMP-genotypes corresponding to 8 serovars. Six additional enzymes (NlaIII, CfoI, EcoRI, HinfI, DdeI and FokI) further permit the discrimination of 10 MOMP-genotypes corresponding to the 10 remaining serovars of the species. AluI alone allows direct typing of 78% of the clinical isolates. AluI digestion patterns of mouse C. trachomatis biovar, a C. pneumoniae and two C. psittaci strains, studied for comparison, were clearly distinguishable from one another and from the C. trachomatis LGV and trachoma strains. These results indicate that MOMP genotyping by PCR is a valuable molecular tool for studying C. trachomatis epidemiology.     

Serological response to chlamydial infection in sheep, studied by enzyme-linked immunosorbent assay and immunoblotting

Abstract Two enzyme-linked immunosorbent assays (ELISA) using highly purified elementary bodies (EB) of Chlamydia psittaci A/22 strain (ovine) or 6BC strain (psittacine) were set up for the detection of antichlamydial antibodies in sheep. No significant differences were observed between the two ELISAs, whereas these tests proved to be more sensitive than complement fixation test and showed a good correlation ( r = 0.75) with immunofluorescence assay. The periodate treatment of chlamydial antigens modified the results of serological responses studied by ELISA, depending on the sera. The average reduction of ELISA values by periodate was 28%, ranging between 5% and 65%. The immunoblot analysis of sheep sera showed high cross reactivity between the polypeptides of A/22 and 6BC strains. However, some differences were observed. The major outer membrane protein (MOMP) of 6BC strain was recognized at different molecular weight position (40 000 kDa) in comparison with the MOMP of A/22 strain (38 000 kDa). In addition, a clear band of 97 000 kDa was detected by all sheep sera tested with A/22 strain. This band was undetectable in the blots performed with 6BC strain.     

Serological response to chlamydial infection in sheep, studied by enzyme-linked immunosorbent assay and immunoblotting

Two enzyme-linked immunosorbent assays (ELISA) using highly purified elementary bodies (EB) of Chlamydia psittaci A/22 strain (ovine) or 6BC strain (psittacine) were set up for the detection of antichlamydial antibodies in sheep. No significant differences were observed between the two ELISAs, whereas these tests proved to be more sensitive than complement fixation test and showed a good correlation (r = 0.75) with immunofluorescence assay. The periodate treatment of chlamydial antigens modified the results of serological responses studied by ELISA, depending on the sera. The average reduction of ELISA values by periodate was 28%, ranging between 5% and 65%. The immunoblot analysis of sheep sera showed high cross reactivity between the polypeptides of A/22 and 6BC strains. However, some differences were observed. The major outer membrane protein (MOMP) of 6BC strain was recognized at different molecular weight position (40,000 kDa) in comparison with the MOMP of A/22 strain (38,000 kDa). In addition, a clear band of 97,000 kDa was detected by all sheep sera tested with A/22 strain. This band was undetectable in the blots performed with 6BC strain.     

Outer membrane complex proteins of Chlamydia pneumoniae

Abstract The protein composition of the outer membrane complex (OMC) of Chlamydia pneumoniae strain AR-39 was analyzed by metabolic labeling with [³⁵S]methionine and [³⁵S]cysteine. Cysteine-rich proteins with molecular masses of 98, 60 doublet, 39.5 (MOMP) and 15.5 kDa were found in the OMC of C. pneumoniae . The cysteine-rich proteins of the OMCs of the threee Chlamydia species showed specific reaction patterns by immunoassay and autoradiography to rabbit or turkey immune sera. Recognition of the MOMP and 60-kDa proteins of the three species was cross-reactive. However, the C. pneumoniae 98-kDa protein was recognized by anti- C. pneumoniae (AR-39) and anti- C. psittaci (TT3) immune sera. None of the immunee sera recognized the 12-kDa cysteine-rich complex.     

Some aspects of the immune response of koalas (Phascolarctos cinereus) and in vitro neutralization of chlamydia psittaci (koala strains)

Abstract Western-blot analysis was used to study the reaction of koala antisera, two specific polyclonal antibodies and one monoclonal antibody, with chlamydial antigens in koalas infected with Chlamydia psittaci . The koala sera recognized four C. psittaci surface antigens, corresponding to the major outer membrane protein (39.5 kDa), 31 kDa protein, 18 kDa protein and lipopolysaccharide. The S25-23 LPS specific monoclonal antibody inhibited chlamydial infection (55–67%) with both koala strains (type I and type II). Both koala antiserum and rabbit polyclonal antibodies against either type of chlamydia significantly reduced the number of infected cells resulting from type II infections at a dilution of 1 in 20. Rabbit antiserum against type II was effective in neutralizing infection by type II elementary bodies, but was less effective against type I infection. In addition, no koala antiserum was effective in neutralizing type I infection.     

Characterization of Chlamydia trachomatis antigens with monoclonal and polyclonal antibodies

We used monoclonal antibodies (MAbs) to examine the antigenic specificity and biologic function of several Chlamydia trachomatis antigens. Thirteen distinct MAbs to eight C. trachomatis antigens were produced. Six MAbs reacted with unique epitopes on the major outer membrane protein (MOMP) and two of these had neutralizing activity. MAbs were produced to each of the chlamydial antigens with molecular masses of 10, 29, 32, 57, 60, 70, and 75 kilodaltons (kDa). These MAbs showed species and genus specificity in an immunoblot assay. None of the MAbs had neutralizing activity. The epitopes recognized on MOMP, 29-, and 10-kDa (presumably lipopolysaccharide) antigens were surface exposed. MAbs to the 75-kDa, 57-kDa, and MOMP antigens were used for immunoaffinity purification of these antigens to produce monospecific antisera in mice. With polyclonal sera, we found that the 75-kDa antigen was also immunoaccessible and that antibody to MOMP and 75-kDa antigens neutralized C. trachomatis infectivity. We conclude that, in addition to MOMP and lipopolysaccharide, antigens with molecular masses of 75 and 29 kDa are surface exposed. Antibodies to MOMP and 75-kDa antigens can neutralize the organism in vitro.     

Chlamydia psittaci ewe abortion agent: complete nucleotide sequence of the major outer membrane protein gene

The complete nucleotide sequence encoding the major outer membrane protein (MOMP) of Chlamydia psittaci strain A22/M, responsible for enzootic abortion of ewes (EAE), has been determined. An 800bp Eco RI/ Xba I fragment containing a portion of the MOMP coding sequence from C. trachomatis serovar L1 was used to probe a λL47.1 genomic library constructed from DNA obtained from C. psittaci EAE A22/M. The recombinant L47.1/EA1 was selected and contained the entire C. psittaci MOMP gene within a 7.5 kb Bam HI fragment. The DNA sequence revealed an open reading frame encoding 402 amino acids, including a 22 amino acid signal peptide, which exhibited 17/22 conservation with the signal peptide of C. trachomatis MOMP. The calculated molecular mass of the C. psittaci MOMP was 43 kDa. A comparison of the MOMP genes of C. psittaci and C. trachomatis revealed only 34% nucleotide sequence homology, but 65% amino acid homology.     

Infection-induced antibodies against the major outer membrane protein of Campylobacter jejuni mainly recognize conformational epitopes

The major outer membrane protein (MOMP) of Campylobacter jejuni is an abundant surface protein with a pore-forming function and may be a potential candidate for vaccine development. Despite the fact that MOMP is immunogenic and the recombinant MOMP (rMOMP) can be readily produced in Escherichia coli, the nature of the antibody response to MOMP during in vivo infection is not well understood. In this study, various methods involving detergent replacement and liposome reconstitution were used to refold rMOMP, and antibody responses to MOMP elicited in Campylobacter-colonized chickens were evaluated using sera from chickens either naturally or experimentally infected by C. jejuni. The results demonstrated that proteoliposomes restored the reactivity of rMOMP to rabbit antibodies elicited by native MOMP, indicating the recovery of native MOMP conformation by this refolding method. Importantly, sera from naturally or experimentally infected chickens reacted weakly with denatured rMOMP, but strongly with rMOMP reconstituted in proteoliposome, suggesting that the chicken antibody response to MOMP is predominantly directed against conformational epitopes. These observations provide direct evidence for conformation-dependent humoral responses to MOMP induced by Campylobacter infection, demonstrate that C. jejuni MOMP is immunogenic in its natural host and suggest that proteoliposomes may be potentially used for the evaluation of rMOMP-based vaccines.     

Plasmids of Chlamydia psittaci: Cloning and comparison of isolates by Southern hybridisation

Abstract A chlamydial plasmid, 6.2 kb in size, was isolated from an avian strain of Chlamydia psittaci and cloned into the Eco RI site of pUC13. A restriction enzyme cleavage map of the resultant clone, pAP¹p, was very similar to the published map of the plasmid cloned from the C. psittaci meningopneumonitis strain Cal-10. Southern hybridisation analyses using pAP¹p as a probe, revealed the presence of plasmids with homologous DNA sequences in avian psittacosis, avian ornithosis, ovine polyarthritis and sporadic bovine encephalomyelitis strains of C. psittaci , as well as the LGV strain of Chlamydia trachomatis . Plasmid was not detected in koala conjunctivitis, ovine abortion or feline conjunctivitis isolates. The plasmid-containing isolates could be grouped according to size (6.2 or 7.2–7.3 kb) and restriction endonuclease pattern. These three plasmid categories correlate with previously reported C. psittaci biotypes, immunotypes and serotypes. The absence of plasmid from three infectious, pathogenic strains of C. psittaci suggests that, in this species at least, plasmid-encoded genes are not essential for survival, infectivity or virulence of the parasite.     

Antigenic analysis of Chlamydiae by two-dimensional immunoelectrophoresis. II. A trachoma-LGV-specific antigen.

Two-dimensional immunoelectrophoresis was utilized to study precipitins in hyperimmune rabbit serum made against chlamydiae and from patients with chlamydial infections. An antigen of Triton X-100-solubilized L2/434/Bu organisms with an electrophoretic mobility of 0.65 relative to bovine serum albumin at pH 8.6 was excised from the agarose gel of electrophorograms as antigen-antibody complexes and used to immunize rabbits. A monospecific antiserum to antigen 0.65 was obtained that reacted with Trachoma-LGV strains L2/434/Bu, B/TW-5/OT, and K/UW-31/Cx, but not with the mouse pneumonitis (Nigg) strain or the psittacosis strain meningopneumonitis (Cal-10). The Trachoma-LGV specificity of antigen 0.65 was further shown by indirect immunofluorescence straining with the monospecific antiserum of chlamydial inclusions in infected HeLa cells. Precipitins with a specificity for antigen 0.65 were indentified in 15 of 18 sera from patients with diagnosed Chlamydia trachomatis infections LGV, trachoma, nongonococcal urethritis, and nongonococcal cervicitis by using monospecific antiserum to antigen 0.65 in the peak suppression test. Thus, antigen 0.65 appears to be a Trachoma-LGV-specific antigen that has considerable promise for serodiagnosis.     

Protective monoclonal antibodies recognize epitopes located on the major outer membrane protein of Chlamydia trachomatis

A panel of monoclonal antibodies (MAb) was generated against Chlamydia trachomatis serovar B, an etiologic agent of blinding trachoma. The specificities of MAb were determined by dot blot assay by using viable elementary bodies of 13 C. trachomatis serovars and two C. psittaci strains. The dot blot assay was used to identify those antigens that were unique and immunoaccessible on the chlamydial surface. MAb were identified that recognized bi-specific (serovars B and Ba) or subspecies-specific (various B complex serovars) surface-exposed antigenic determinants that were either resistant or sensitive to heat denaturation (56 degrees C, 30 min). All of the MAb recognized the major outer membrane protein as determined by either immunoblotting or radioimmunoprecipitation. MAb specific for immunoaccessible major outer membrane protein epitopes protected mice from toxic death after i.v. injection of B serovar elementary bodies and neutralized the infectivity of the organism for monkey eyes. In contrast, MAb reactive against non-immunoaccessible subspecies- or species-specific major outer membrane protein epitopes or against an immunoaccessible genus-specific epitope located on chlamydial lipopolysaccharide did not protect mice from toxic death or neutralize infectivity of the parasite for monkey eyes. These data suggest that those major outer membrane protein antigenic determinants that are serovar or serogroup specific and are accessible to antibody on the chlamydial cell surface may be useful as a recombinant subunit vaccine for trachoma.     

Initial characterization of a chlamydial receptor on mammalian cells

We have examined characteristics of the binding of eukaryotic cells to chlamydial elementary body (EB)-specific proteins. A wide variety of eukaryotic cell lines bound to representatives of both Chlamydia trachomatis lymphogranuloma venereum (LGV) and trachoma biovars and a C. psittaci strain meningopneumonitis (Mn) suggesting the presence of a common host cell receptor. Neither tunicamycin nor neuraminidase treatment of HeLa cells impaired binding to C. trachomatis EB, implying that host cell N-linked carbohydrate domains and sialic acid moieties, respectively, are not involved in attachment. However, trypsinized HeLa cells do not bind to EB, suggestive of a proteinaceous host cell receptor. The trypsin sensitivity of two EB-specific binding proteins Mr = 18,000 and 31,000) was also examined, and the finding that 125I-labeled HeLa cells bind both the 18,000 and 31,000-dalton proteins after chlamydial trypsinization corroborates our earlier observation that these EB binding proteins mediate attachment.     

Detection of surface-exposed epitopes on Chlamydia trachomatis by immune electron microscopy

The cell surfaces of two Chlamydia trachomatis serovars were explored by immune electron microscopy with monoclonal antibodies that recognize a number of chlamydial outer-membrane components. Species, subspecies and serovar-reactive epitopes on the major outer-membrane protein (MOMP) of a lymphogranuloma venereum biovar strain, L2/434/Bu, and a trachoma biovar strain, F/UW-6/Cx, were exposed on the surfaces of both elementary bodies (EBs) and reticulate bodies (RBs). Three epitopes on MOMP were inaccessible on EBs and RBs of both strains. These included a genus-reactive, species-reactive, and a subspecies-reactive epitope. In contrast, genus-specific epitopes on lipopolysaccharide (LPS) were not detected on the EB surface, but were clearly expressed on RBs of both L2/434/Bu and F/UW-6/Cx chlamydiae. Antibodies specific for the 60 kDa and 12 kDa 'cysteine-rich' outer-membrane proteins did not react with surface epitopes on either EBs or RBs. These data provide evidence that MOMP is a major surface antigen of both morphological forms, whereas some portions of the LPS molecule are exposed on the RB surface but become inaccessible to antibody after conversion to the infectious EB form.     

The potential protective effect of immunization with outer-membrane protein I from Neisseria gonorrhoeae

Immunization of rabbits with outer membranes (OM) of Neisseria gonorrhoeae produced antibodies directed against outer-membrane proteins PI and PIII. The antibodies directed against PIII reacted equally well on Western blots with all strains tested, but antibodies directed against PI reacted only with the homologous strain. When purified PIB was used for immunization the immune response was quite different: the sera obtained reacted with both homologous and heterologous PIB types and also reacted with strains expressing PIA. Western blotting of peptides produced by sequential cleavage of PIB revealed that the antigenic determinants recognized by anti-OM sera were predominantly located in the central surface-exposed region of PIB, as is the epitope recognized by the protective anti-PIB monoclonal antibody SM24. In contrast antibodies produced by immunization with purified PI reacted with antigenic determinants in the N-terminal portion of PIB. Nevertheless these determinants are accessible to immune attack on the native protein since the anti-PI sera were opsonic and were strongly bactericidal for both PIA- and PIB-expressing strains.     

Synthesis of disulfide-bonded outer membrane proteins during the developmental cycle of Chlamydia psittaci and Chlamydia trachomatis.

The disulfide bond cross-linked major outer membrane protein (MOMP) of the extracellular elementary bodies (EBs) of Chlamydia psittaci was reduced to its monomeric form within 1 h of entry of EBs into host cells by a process which was inhibited by chloramphenicol, while monomeric forms of three cross-linked cysteine-rich proteins could not be detected in Sarkosyl outer membrane complexes at any time in either extracellular or intracellular forms of C. psittaci. Synthesis and incorporation of the MOMP into outer membrane complexes were detected early in the infection cycle (12 h postinfection), while synthesis and incorporation of the cysteine-rich proteins were not observed until reticulate bodies had begun to reorganize into EBs at 20 to 22 h postinfection. By 46 h postinfection, the intracellular population of C. psittaci consisted mainly of EBs, the outer membrane complexes of which were replete with monomeric MOMP and cross-linked cysteine-rich proteins. Upon lysis of infected cells at 46 h, the MOMP was rapidly cross-linked, and infectious EBs were released. The status of the MOMP of intracellular Chlamydia trachomatis was similar to the status of the MOMP of C. psittaci in that the MOMP was largely uncross-linked at 24 and 48 h postinfection, but formed interpeptide disulfide bonds when it was exposed to an extracellular environment late in the developmental cycle. In contrast to C. psittaci, only a fraction of the cross-linked MOMP of infecting EBs of C. trachomatis was reduced by 4 h postinfection, and reduction of the MOMP was not inhibited by chloramphenicol. Exposure of extracellular EBs of C. trachomatis and C. psittaci to dithiothreitol reduced the MOMP but failed to stimulate metabolic activities normally associated with reticulate bodies.     

Trachoma and LGV biovars of Chlamydia trachomatis share the same glycosaminoglycan-dependent mechanism for infection of eukaryotic cells

A sulphated glycosaminoglycan-dependent mechanism of microbial infection for mammailan cells was characterized for the Chlamydia trachomatis trachoma and lymphogranuloma venereum (LGV) biovars. We demonstrated that the trachoma and LGV biovars compete for the same receptor(s) on host cells and that their infectivity was inhibited by heparin or heparan sulphate. Using a specific heparan suiphate lyase (heparitinase) to treat organisms, the Infectivity of both biovars was abolished. Furthermore, exogenous heparan sulphate rescued chlamydial infectivity following treatment with heparitinase and the restored infectivity was neutralized by an anti-heparan sulphate monoclonal antibody. These data suggest that heparan sulphate-like-mediated Interactions between C. trachomatis and eukaryotic cells are essential for infectivity.     

Intramuscular Immunisation with Chlamydial Proteins Induces Chlamydia trachomatis Specific Ocular Antibodies

Background

Ocular infection with Chlamydia trachomatis can cause trachoma, which is the leading cause of blindness due to infection worldwide. Despite the large-scale implementation of trachoma control programmes in the majority of countries where trachoma is endemic, there remains a need for a vaccine. Since C. trachomatis infects the conjunctival epithelium and stimulates an immune response in the associated lymphoid tissue, vaccine regimens that enhance local antibody responses could be advantageous. In experimental infections of non-human primates (NHPs), antibody specificity to C. trachomatis antigens was found to change over the course of ocular infection. The appearance of major outer membrane protein (MOMP) specific antibodies correlated with a reduction in ocular chlamydial burden, while subsequent generation of antibodies specific for PmpD and Pgp3 correlated with C. trachomatis eradication.

Methods

We used a range of heterologous prime-boost vaccinations with DNA, Adenovirus, modified vaccinia Ankara (MVA) and protein vaccines based on the major outer membrane protein (MOMP) as an antigen, and investigated the effect of vaccine route, antigen and regimen on the induction of anti-chlamydial antibodies detectable in the ocular lavage fluid of mice.

Results

Three intramuscular vaccinations with recombinant protein adjuvanted with MF59 induced significantly greater levels of anti-MOMP ocular antibodies than the other regimens tested. Intranasal delivery of vaccines induced less IgG antibody in the eye than intramuscular delivery. The inclusion of the antigens PmpD and Pgp3, singly or in combination, induced ocular antigen-specific IgG antibodies, although the anti-PmpD antibody response was consistently lower and attenuated by combination with other antigens.

Conclusions

If translatable to NHPs and/or humans, this investigation of the murine C. trachomatis specific ocular antibody response following vaccination provides a potential mouse model for the rapid and high throughput evaluation of future trachoma vaccines.     

Demonstration of the humoral immune response of horses to Babesia caballi by western blotting.

Babesia caballi-infected or normal equine erythrocytes were solubilized in sodium dodecyl sulfate (SDS) buffer and analyzed by SDS-polyacrylamide gel electrophoresis (SDS-PAGE) and Western blotting. Antigens were allowed to react with sera from horses experimentally or field-infected with B. caballi and with sera from non-infected horses. Major babesial antigens recognized by immune sera had apparent mol. wts of 141, 112, 70, 50, 48, 34, and 30 kDa. The polypeptides at 50 and 48 kDa were recognized earliest and throughout infection, but also weakly by 3/100 equine sera tested negative and 1/33 sera tested false positive by the complement fixation test (CFT) and immunofluorescence antibody test (IFAT). Thus, further characterization and purification of B. caballi antigens are required to identify target antigens for an improved enzyme immuno assay. Until such an assay is available, Western blotting can provide a specific tool for the diagnosis of B. caballi infections, particularly in cases of contradicting CFT and IFAT results.     

Sequence analysis and lipid modification of the cysteine-rich envelope proteins of Chlamydia psittaci 6BC.

The envelopes of elementary bodies of Chlamydia spp. consist largely of disulfide-cross-linked major outer membrane protein (MOMP) and two cysteine-rich proteins (CRPs). The MOMP gene of Chlamydia psittaci 6BC has been sequenced previously, and the genes encoding the small and large CRPs from this strain were cloned and sequenced in this study. The CRP genes were found to be tandemly arranged on the chlamydial chromosome but could be independently expressed in Escherichia coli. The deduced 87-amino-acid sequence of the small-CRP gene (envA) contains 15 cysteine residues, a potential signal peptide, and a potential signal peptidase II-lipid modification site. Hydropathy plot and conformation analysis of the small-CRP amino acid sequence indicated that the protein was unlikely to be associated with a membrane. However, the small CRP was specifically labeled in host cells incubated with [3H]palmitic acid and may therefore be associated with a membrane through a covalently attached lipid portion of the molecule. The deduced 557-amino-acid sequence of the large-CRP gene (envB) contains 37 cysteine residues and a single putative signal peptidase I cleavage site. In one recombinant clone the large CRP appeared to be posttranslationally cleaved at two sites, forming a doublet in a manner similar to the large-CRP doublet made in native C. psittaci 6BC. Comparison of the deduced amino acid sequences of the CRPs from chlamydial strains indicated that the small CRP is moderately conserved, with 54% identity between C. psittaci 6BC and Chlamydia trachomatis, and the large CRP is highly conserved, with 71% identity between C. psittaci and C. trachomatis and 85% identity between C. psittaci 6BC and Chlamydia pneumoniae. The positions of the cysteine residues in both CRPs are highly conserved in Chlamydia spp. From the number of cysteine residues in the MOMP and the CRPs and the relative incorporation of [35S]cysteine into these proteins, it was calculated that the molar ratio of C. psittaci 6BC elementary body envelope proteins is about one large-CRP molecule to two small-CRP molecules to five MOMP molecules.     

肺炎衣原体ompA基因VD2-VD3区重组蛋白在血清学诊断中的初步应用

应用聚合酶联反应(PCR)技术,从肺炎衣原体Chlamydia pneumoniae的主要外膜蛋白(Major Outer Membrane Protein,MOMP)编码基因(ompA)上扩增出抗原优势表位VD2-VD3区基因,构建原核表达系统并诱导表达重组蛋白,经Ni-NTA亲和层析法纯化表达产物。间接酶联免疫吸附试验(Enzyme link immunosorbent assay,ELISA)检测人血清中特异性IgG抗体。试验表明,转化入BL21大肠杆菌的重组质粒,能表达并纯化出相对分子质量(Mr)为24KD的重组蛋白。Western blot证实重组蛋白只与Cpn MOMP mAb发生特异性反应;重组蛋白用作ELISA包被抗原检测Cpn阴阳性参比血清,特异性和灵敏度均为100%;对126位冠心病患者血清进行的检测中,该间接ELISA法与晶美公司Cpn IgG ELISA诊断试剂盒的检测结果相比,符合率达到96.3%。结果证实,制备的重组蛋白MOMPVD2-VD3具有良好的免疫活性,在Cpn血清学诊断的应用中具有较大的利用价值。