Absence of Mycoplasma pneumoniae cytadsorption protein P1 in Mycoplasma genitalium and Mycoplasma gallisepticum

Polyclonal and monoclonal antibodies to Mycoplasma pneumoniae protein P1 were nonreactive with whole-cell or soluble preparations of M. genitalium and M. gallisepticum. However, radioimmunoprecipitation performed with hyperimmune rabbit sera raised against each mycoplasma species indicated antigenic cross-reactivity between M. pneumoniae and M. genitalium.     

Homologous regions shared by adhesin genes of Mycoplasma pneumoniae and Mycoplasma genitalium

A lambda gt11 library of Mycoplasma genitalium genomic DNA was generated, and clones were identified using a pool of monoclonal antibodies directed against different epitopes of the 140 kDa adhesin protein. Because the 140 kDa protein of M. genitalium and the 170 kDa P1 adhesin of M. pneumoniae share biological properties such as a tip-associated location, cytadherence function and immunologic crossreactivity, we performed Southern blot analysis using these cloned partial 140 kDa gene fragments and 14 subclones that span the P1 structural gene of M. pneumoniae. Homologous regions of the two genes were identified.     

Immunodominant epitopes of the adhesin of Mycoplasma pneumoniae.

Overlapping octapeptides from the amino acid sequence of the adherence protein of Mycoplasma pneumoniae were synthesized and used as the antigen in an enzyme-linked immunosorbent assay with serum samples from M. pneumoniae-infected patients. Of a sequence of 338 amino acids positioned between leucine 801 and leucine 1139, only two regions with immunodominant continuous epitopes were detected. The immunoglobulin G and immunoglobulin M antibodies of child and adult patients reacted especially with the NH2-(810)-W-I-G-N-G-Y-R-Y peptide but also reacted with the NH2-(1124)-F-T-D-F-V-K-P-R peptide.     

Detection of the major adhesin P1 in triton shells of virulent Mycoplasma pneumoniae.

Filamentous structures designated Triton shells were obtained from virulent Mycoplasma pneumoniae by treatment with Triton X-100. Monoclonal antibodies directed against M. pneumoniae were used in conjunction with radioimmunoprecipitation and Western blotting to detect immunologically reactive polypeptides in Triton shells. The major adhesin, protein P1, was associated with these structures.     

肺炎支原体P1黏附因子主要抗原表位的表达及其临床应用研究

目的 探索肺炎支原体(Mycoplasma pneumoniae,Mp)P1蛋白作为抗原成分在临床血清抗体检测中的应用.方法 通过生物信息学分析P1基因主要抗原决定簇,选择其分值较高的部位进行原核表达、纯化,并进行Western blot鉴定,用纯化后的蛋白免疫小鼠,评价其免疫原性,同时用其作为抗原,采用ELISA方法检测肺炎支原体患儿血清抗体并与全菌体抗原进行比较.结果 成功构建了pET-28C-P1-534原核表达载体,经表达、纯化后获得了相对分子质量为26×103的融合蛋白;Western blot检测其能与Mp阳性血清发生特异性反应;利用纯化的重组蛋白免疫小鼠,能诱导小鼠产生特异性免疫应答,抗体滴度可达 1∶2000;用此蛋白作为抗原成分检测患儿血清,其敏感性和特异性分别为85.00%及97.67%.结论 重组表达的P1-534蛋白具有良好的免疫原性,作为新的抗原成分其敏感性和特异性优于全菌体抗原,为肺炎支原体抗原成分及其蛋白保护作用的研究奠定了基础.

Abstract：

Objective To study the application of P1 adhesin protein epitopes in diagnosis of Mycoplasma pneumoniae(Mp) infected patient. Methods The major epitope(P1-534) of P1 adhesin protein were predicted by ProPred and ANTIGENIC according to its primary structure. The high value fragment was cloned into a constructed recombinant vector. The gene was induced to express fusion protein in E. coli host strain BL21(DE3) and the fusion protein was identified by Western blot. BALB/c mice were immunized with purified protein to test its immunogenicity. Then the purified protein was used as antigen to test the serum of Mp infected patient by ELISA, and compared with the Mp whole cell antigen. Results The P1-534 protein was successfully expressed and purified. ELISA data showed that P1-534 protein could elicit high levels of IgG in immunized mice, the sensitivity and specificity of P1-534 were determined to be 85.00% and 97.67%, while the Mp whole cell antigen were 72.50% and 74.42%. Conclusion The results conformed that the recombinant epitope has certain immunogenicity,and its sensitivity and specificity are better than Mp whole cell antigen. P1-534 protein can be used as an antigen for immunodiagnosis of Mp infection.     

A Mycoplasma genitalium protein resembling the Mycoplasma pneumoniae attachment protein.

In previous studies with hyperimmune rabbit sera and monoclonal antibodies against the P1 protein of Mycoplasma pneumoniae, we obtained evidence of a shared antigenic determinant with a single protein of Mycoplasma genitalium. Because of biologic and morphologic similarities between these two human Mycoplasma species, attempts were made to characterize this cross-reacting protein of M. genitalium (designated MgPa). The protein was surface exposed and had an estimated molecular size of 140 kilodaltons. Electron microscopy with monoclonal antibodies produced against either MgPa or P1 demonstrated that MgPa is located over the surface of the terminal structure of M. genitalium which is covered by a nap layer. These immunologic and morphologic findings suggest that the MgPa protein of M. genitalium could be the counterpart of the P1 protein of M. pneumoniae.     

DNA and protein sequence homologies between the adhesins of Mycoplasma genitalium and Mycoplasma pneumoniae.

Mycoplasma genitalium and Mycoplasma pneumoniae are morphologically and serologically related pathogens that colonize the human host. Their successful parasitism appears to be dependent on the product, an adhesin protein, of a gene that is carried by each of these mycoplasmas. Here we describe the cloning and determine the sequence of the structural gene for the putative adhesin of M. genitalium and compare its sequence to the counterpart P1 gene of M. pneumoniae. Regions of homology that were consistent with the observed serological cross-reactivity between these adhesins were detected at both DNA and protein levels. However, the degree of homology between these two genes and their products was much higher than anticipated. Interestingly, the A + T content of the M. genitalium adhesin gene was calculated as 60.1%, which is substantially higher tham that of the P1 gene (46.5%). Comparisons of codon usage between the two organisms revealed that M. genitalium preferentially used A- and T-rich codons. A total of 65% of positions 3 and 56% of positions 1 in M. genitalium codons were either A or T, whereas M. pneumoniae utilized A or T for positions 3 and 1 at a frequency of 40 and 47%, respectively. The biased choice of the A- and T-rich codons in M. genitalium could also account for the preferential use of A- and T-rich codons in conservative amino acid substitutions found in the M. genitalium adhesin. These facts suggest that M. genitalium might have evolved independently of other human mycoplasma species, including M. pneumoniae.     

Expression and immunological characterization of the carboxy-terminal region of the P1 adhesin protein of Mycoplasma pneumoniae

Mycoplasma pneumoniae is the causative agent of primary atypical pneumonia in humans. Adherence of M. pneumoniae to host cells requires several adhesin proteins, such as P1, P30, and P116. A major limitation in developing a specific diagnostic test for M. pneumoniae is the inability to express adhesin proteins in heterologous expression systems due to unusual usage of the UGA stop codon, leading to premature termination of these proteins in Escherichia coli. In the present study, we successfully expressed the C-terminal (P1-C1) and N-terminal (P1-N1) regions of the P1 protein in E. coli. On screening these recombinant proteins with sera from M. pneumoniae-infected patients, only the P1-C1 protein was found to be immunogenic. This protein can be used as an antigen for immunodiagnosis of M. pneumoniae infection, as well as in adherence inhibition studies to understand the pathophysiology of the disease.     

Detection of Mycoplasma pneumoniae adhesin (P1) in the nonhemadsorbing population of virulent Mycoplasma pneumoniae.

Mycoplasma pneumoniae organisms possessing a hemadsorbing-negative (HA-) phenotype comprise more than 50% of the population of virulent M. pneumoniae cultures. Monoclonal antibody to P1, the major adhesin of M. pneumoniae reacts with this HA- mycoplasma fraction based upon radioimmunoprecipitation and immunoblotting. Demonstration of P1 in the entire mycoplasma population suggests that topological organization of this adhesin in the membrane or the physiological state of the mycoplasmas may determine hemadsorbing capabilities.     

Expression and functional identification of the hypothetical adhesin P32 from Mycoplasma genitalium

Mycoplasma genitalium is the main causative agent for non-gonococcal and non-chlamydial urethritis. P32 is the putative surface-exposed membrane protein of M. genitalium and it has substaintial identity in amino acid sequence with adhesin protein P30 from M. pnewnoniae. Since M. pneumoniae mutants lacking P30 protein is defective in cytadherence, P32 protein has been proposed to be an essential adhesin implicated in the adherence of M. genitalium to host cells. The prokaryotic expression vector pET-30 ( )/p32 was constructed in the present study, and the recombinant protein was expressed in E. coli and purified under denaturing condition. As demonstrated by the immunoblotting analysis, the recombinant protein could react with rabbit antisera against M. genitalium, and adherence inhibition assays were petformed with antisera against this recombinant protein. It was demonstrated that P32 protein apperared to be an adhesion protein of M. genitalium, thus providing the experimental basis for better understanding of the pathogenesis of M. genitalium infection and for the development of the related vaccines against the infection.     

Immunological cross-reactivity of a Mycoplasma pneumoniae membrane-associated protein antigen with Mycoplasma genitalium and Acholeplasma laidlawii.

A murine monoclonal antibody, OC2F5, reacts with a Mycoplasma pneumoniae antigen with an approximate Mr of 43,000. This antigen is trypsin and proteinase K sensitive and partitions in the detergent phase of a Triton X-114 solution. The monoclonal antibody cross-reacts with an antigen from both Mycoplasma genitalium and Acholeplasma laidlawii with a similar molecular weight. This cross-reactivity should be considered in the development of M. pneumoniae antigen detection systems based on the use of antibodies directed to this protein antigen.     

Characterisation of subtype- and variant-specific antigen regions of the P1 adhesin of Mycoplasma pneumoniae

Distinct sequence differences within the repetitive elements (RepMP) of the Mycoplasma pneumoniae P1 adhesin are the only targets to discriminate patient isolates with molecular approaches into subtypes and variants. Since the P1 protein is also one of the most immunodominant proteins of the bacterium, the antigenic regions of the differing repetitive sequences might be of epidemiological significance for the observation of time-dependent outbreaks due to defined subtypes and variants of M. pneumoniae in the human population. By establishing a set of four subtype- and variant 2-specific recombinant proteins, we investigated the antigenicity of the variable P1 protein regions with sera of subtype- and variant-specific immunised animals and sera of M. pneumoniae-positive pneumonia patients. The results of the ELISA experiments confirmed the immunogenic character of the differing parts of the P1 adhesin and the occurrence of a specific immune response of the immunised animals. The detection of subtype- and variant-specific antibodies in the investigated sera strongly support the hypothesis of a selective immune response. It might be indicative for the partial protection of the host to a defined endemic or epidemic strain and therefore also the reason for a reduced protection against secondary infections with a differing subtype and variant of M. pneumoniae strains compared to the first contact.     

Cross-hybridization between the cytadhesin genes of Mycoplasma pneumoniae and Mycoplasma genitalium and genomic DNA of Mycoplasma gallisepticum

Immunological cross-reactivity was observed between the cytadhesin proteins of Mycoplasma pneumoniae and Mycoplasma genitalium and a 155 kDa protein of Mycoplasma gallisepticum. Furthermore, the cytadhesin genes of M. pneumoniae and M. genitalium were used to demonstrate homology with M. gallisepticum genomic DNA under low stringency conditions suggesting that a family of adhesin-related genes exists among these pathogenic mycoplasmas.     

Mycoplasma pneumoniae and Mycoplasma genitalium mixture in synovial fluid isolate.

A mycoplasma cultured from synovial fluid specimens from a patient with pneumonia and subsequent polyarthritis was identified initially as Mycoplasma pneumoniae. In retrospective studies, the culture was shown also to contain Mycoplasma genitalium. In this paper, the laboratory techniques employed in the identification and separation of the two species are presented, and evidence to implicate postinfectious autoimmunity is provided. An increasing number of reports of M. genitalium in human tissue sites and difficulties in isolation and identification of the organism in the clinical laboratory suggest the need for more extensive application of rapid and specific detection systems for both M. genitalium and M. pneumoniae in the clinical laboratory.     

Streptococcus sanguis expresses a 150-kilodalton two-domain adhesin: characterization of several independent adhesin epitopes.

Streptococcus sanguis binds to saliva-coated hydroxylapatite (sHA), an in vitro model of the enamel pellicle. To learn if more than one adhesin functions during adhesion, 12 reactive monoclonal antibodies (MAbs) were isolated by screening against both adhesive and nonadhesive strains. Two of these MAbs, 1.1 and 1.2, inhibited adhesion in a dose-dependent fashion, although maximum inhibition with either was only 37%. When these two MAbs plus a polyclonal antibody to P1-like adhesin were combined, the inhibition was additive to about 82%. These data indicated that there were at least three distinct, functional adhesion epitopes on the surface of S. sanguis. Western blot analyses of S. sanguis surface macromolecules showed antigens at 36 and 56 (with MAb 1.2), 87 and 150 (with both MAb 1.1 and MAb 1.2), and 100, 130, and 170 kDa (with anti-P1 antibody). The antigens were eluted from gels. Isolated antigens and corresponding antibodies inhibited adhesion similarly. Additivity experiments suggested the distinct epitopes were in three groups: (i) 36/56 kDa, (ii) 87/150 kDa, and (iii) 100/130/170 kDa. The 150-kDa antigen reacting with both MAbs was isolated from gels and digested with trypsin. The digestion revealed a series of tryptic bands. A band at 38 kDa reacted with MAb 1.1 whereas a band at 54 kDa reacted with MAb 1.2 in Western blot analysis, indicating two distinct adhesive epitopes on the 150-kDa antigen. These data strongly suggest that S. sanguis adhesion to sHA is maximized when several adhesin epitopes are coexpressed on surface antigens of different sizes.     

Characterization of the gene for a 30-kilodalton adhesion-related protein of Mycoplasma pneumoniae.

A previously identified trypsin-resistant surface protein of Mycoplasma pneumoniae clusters at the tip organelle of virulent mycoplasmas and appears to be essential for cytadherence and virulence. Monoclonal antibodies generated against this protein were used to identify positive recombinant clones from M. pneumoniae genomic DNA libraries. The structural gene was sequenced and contained an open reading frame of 825 nucleotides that encoded a protein of 275 amino acids with a calculated molecular mass of 29,743 Da. This protein (P30) contained three types of repeat sequences at the carboxy end, each consisting of six amino acids. In addition, the protein was proline rich (20.7%) and exhibited significant amino acid homology with the P1 cytadhesin of M. pneumoniae and with several matrix-associated eucaryotic proteins.     

DNA probes for detection and identification of Mycoplasma pneumoniae and Mycoplasma genitalium.

DNA probes specific for Mycoplasma pneumoniae and Mycoplasma genitalium were selected from genomic libraries prepared in pUC13. The 32P-labeled probes could detect, by dot blot hybridization, down to about 0.1 ng of the specific mycoplasma DNA or 10(5) CFU. Biotinylation of probe decreased the sensitivity of detection and produced nonspecific background reactions with nonhomologous DNAs. Sulfonation of probe yielded a similar level of sensitivity with less background.     

肺炎支原体P1蛋白片段免疫学活性及黏附功能的研究

目的 了解肺炎支原体(Mycoplasma pneumoniae,Mp)P1蛋白第1125 ～1395氨基酸片段(P1C蛋白)的免疫学活性及其细胞黏附作用.方法 构建用于表达重组P1C片段(rP1C)的原核表达载体pGEX6p-2/p1c,采用SDS-PAGE和Western blot鉴定rP1C.采用基于GST的亲和层析法提纯rP1C,提纯的rP1C免疫BALB/c小鼠,ELISA检测小鼠抗rP1C血清的效价.采用Western blot检测rP1C对Mp感染患者血清的免疫反应性.采用间接免疫荧光法检测rP1C黏附HeLa细胞及其免疫血清黏附抑制作用.结果 所构建的原核表达系统能有效表达相对分子质量约为66×103的可溶性rP1C.rP1C免疫小鼠后,其抗血清ELISA效价高达1∶64000.rP1C能被Mp感染者血清及小鼠抗rP1C血清识别并与之结合.rP1C能黏附HeLa细胞,其抗血清可阻断Mp对HeLa细胞的黏附,该黏附阻断作用随抗血清浓度增高而增强.结论 rP1C具有良好的免疫原性和免疫反应性及黏附细胞功能,可作为Mp疫苗及血清学检测的候选抗原.     

Failure of Mycoplasma pneumoniae infection to confer protection against Mycoplasma genitalium: observations from a mouse model

Mycoplasma pneumoniae and M. genitalium are genomically distinct but share antigens that induce some serological cross-reactivity. Therefore, the possibility that M. pneumoniae infection of the human respiratory tract might provide immunity to M. genitalium infection of the genital tract was considered. Because of the difficulty of assessing this proposition in man, it was evaluated experimentally in a mouse model. Female BALB/c mice were susceptible to infection of the vagina with M. pneumoniae, whereas those infected previously in the oropharynx with M. pneumoniae were completely immune to infection of the vagina with this mycoplasma. However, all mice with such a respiratory tract infection were susceptible to infection of the vagina with M. genitalium. The findings suggest that an M. pneumoniae infection of the human respiratory tract is unlikely to influence infection of the genital tract by M. genitalium.