De novo synthesis of Legionella pneumophila antigens during intracellular growth in phagocytic cells.

Legionella pneumophilia is a gram-negative rod which is able to multiply within phagocytic cells. The process of phagocytosis leads to a rapid environmental change that might require a coordinate regulation of gene expression to ensure intracellular survival. Since there is little information on up- and downregulation of genes during the early phases of phagocytosis, we radiolabeled intracellular L. pneumophila at different times after phagocytosis by macrophages of the Mono Mac 6 cell line and immunoprecipitated antigens with antilegionella sera or monoclonal antibodies. We could identify two antigens which were upregulated, one of which was the Mip protein, three antigens which were downregulated, and three antigens which were not detectable in extracellularly grown L. pneumophila. The Mip protein was stained most intensively 4 to 8 h after intracellular infection, suggesting that it is needed during intracellular multiplication rather than initiation of infection. A 44-kDa antigen which was not detectable during extracellular growth was most prominent from 2 to 4 h postinfection when Mono Mac 6 cells were used as phagocytic cells. The 44-kDa antigen was also expressed during growth with Acanthamoeba castelanii, MRC-5, and U937 cells but with different kinetics. Synthesis of this antigen was not dependent on protein synthesis of the host cell. Since the 44-kDa antigen could be precipitated by an antiserum produced against a recombinant Escherichia coli harboring a plasmid with an L. pneumophila insert which also codes for the mip gene, we believe that the corresponding gene is within the vicinity of the mip gene. We named this protein legionella intracellular growth antigen (LIGA), since it could be found exclusively in intracellularly grown L. pneumophila.     

Nucleotide sequence analysis of the Legionella micdadei mip gene, encoding a 30-kilodalton analog of the Legionella pneumophila Mip protein.

After the demonstration of analogs of the Legionella pneumophila macrophage infectivity potentiator (Mip) protein in other Legionella species, the Legionella micdadei mip gene was cloned and expressed in Escherichia coli. DNA sequence analysis of the L. micdadei mip gene contained in the plasmid pBA6004 revealed a high degree of homology (71%) to the L. pneumophila mip gene, with the predicted secondary structures of the two Mip proteins following the same pattern. Southern hybridization experiments, with the plasmid pBA6004 as the probe, suggested that the mip gene of L. micdadei has extensive homology with the mip-like genes of several Legionella species. Furthermore, amino acid sequence comparisons revealed significant homology to two eukaryotic proteins with isomerase activity (FK506-binding proteins).     

Identification of mip-like genes in the genus Legionella.

The mip gene of Legionella pneumophila serogroup 1 strain AA100 encodes a 24-kilodalton surface protein (Mip) and enhances the abilities of L. pneumophila to parasitize human macrophages and to cause pneumonia in experimental animals. To determine whether this virulence factor is conserved in the genus Legionella, a large panel of Legionella strains was examined by Southern hybridization and immunoblot analyses for the presence and expression of mip-related sequences. Strains representing all 14 serogroups of L. pneumophila contained a mip gene and expressed a 24-kilodalton Mip protein. Although the isolates of the 29 other Legionella species did not hybridize with mip DNA probes under high-stringency conditions, they did so at reduced stringency. In support of the notion that these strains possess mip-like genes, these species each expressed a protein (24 to 31 kilodaltons in size) that reacted with specific Mip antisera. Moreover, the cloned mip analog from Legionella micdadei encoded the cross-reactive protein. Thus, mip is conserved and specific to L. pneumophila, but mip-like genes are present throughout the genus, perhaps potentiating the intracellular infectivity of all Legionella species.     

实时荧光PCR快速检测嗜肺军团菌的研究

目的 建立TaqMan-MGB探针实时荧光PCR快速检测嗜肺军团菌技术,为临床和环境样品检测嗜肺军团菌提供可实用工具.方法 在对嗜肺军团菌mip序列进行分析、比较基础上,设计一对特异性引物和TaqMan-MGB探针,通过实时荧光PCR反应条件和反应体系的优化,实现对嗜肺军团菌的快速检测;用克隆到pMD-19T载体上的嗜肺军团菌mip基因阳参片段和不同菌株验证方法的敏感性和特异性.结果 当用热裂解法提取DNA,25μl的反应体系中包括上、下游引物(20μmol/L)各0.6μl,探针(20μmol/L)0.4μl,模板DNA 6.0μl,反应条件为预变95℃20 S,变性95℃10 s,退火50℃ 40 s,40个循环时,TaqMan-MGB探针实时荧光PCR技术对嗜肺军团菌mip基因阳参片段最低检测浓度为0.71拷贝/μl,其循环阈值(Ct值)与模板浓度具有极好的对应关系(r=0.999);1株嗜肺军团菌标准株、12株嗜肺军团菌分离株的Ct值在13.23～16.04之间,而包括金黄葡萄球菌、鼠伤寒沙门菌、副溶血性弧菌、大肠埃希菌、铜绿假单胞菌、痢疾志贺菌共计76株其他菌PCR Ct值均大于30;整个检测过程仅需1.5 h.结论 TaqMan-MGB探针的嗜肺军团菌实时荧光PCR检测方法具有特异性和敏感性、易操作、结果准确可靠等优点,可用于嗜肺军团菌检测.     

Detection of Legionella pneumophila by real-time PCR for the mip gene

A real-time PCR assay for the mip gene of Legionella pneumophila was tested with 27 isolates of L. pneumophila, 20 isolates of 14 other Legionella species, and 103 non-Legionella bacteria. Eight culture-positive and 40 culture-negative clinical specimens were tested. This assay was 100% sensitive and 100% specific for L. pneumophila.     

A Legionella pneumophila gene encoding a species-specific surface protein potentiates initiation of intracellular infection.

To investigate the pathogenesis of Legionnaires disease at a molecular level, we mutated by directed allelic exchange a gene encoding a Legionella pneumophila-specific 24,000-dalton (Da) surface protein. Southern hybridization and immunoblot analyses demonstrated that the predicted DNA rearrangement occurred in L. pneumophila with a specific loss of 24-kDa antigen expression. Compared with its isogenic parent, the mutant was significantly impaired in its ability to infect transformed U937 cells, a human macrophagelike cell line; i.e., the bacterial inoculum of the mutant strain that was required to initiate infection of the macrophage monolayer was ca. 80-fold greater than that of the isogenic parent strain. The mutant strain regained full infectivity on reintroduction of a cloned 24-kDa protein gene, indicating that the reduced infectivity was due specifically to the mutation in that gene. Compared with the parent strain, the mutant strain was recovered at titers that were ca. 10-fold lower shortly after infection, but it exhibited a similar intracellular growth rate over the next 40 h, indicating that the mutant was defective in its ability to initiate macrophage infection rather than in its ability to replicate intracellularly. When opsonized, the mutant strain was still significantly less infectious than the parent strain, despite equivalent macrophage association, suggesting that the mutant was not merely missing a ligand for macrophage attachment. The mutant also exhibited reduced infectivity in explanted human alveolar macrophages, demonstrating the relevance of the U937 cell model for analyzing this mutant phenotype. These results represent the first identification of a cloned L. pneumophila gene that is necessary for optimal intracellular infection; we designate this gene mip, for macrophage infectivity potentiator.     

Characterization of the Legionella pneumophila gene ligA

Legionella pneumophila is a bacterial pathogen that resides and multiplies in macrophages as well as in its natural aquatic hosts, the protozoa. Different bacterial factors contribute to pathogenicity and accompanying eukaryotic intracellular events. Sequencing of mip flanking regions revealed a gene of 2610 bp, ligA, that has no significant similarity to any of the genes identified previously. Epidemiological studies indicate that this gene is present in Legionella pneumophila, the species most often associated with cases of the Legionnaires' disease, but not in Legionella species other than L. pneumophila. The isogenic ligA deletion mutant was resistant to NaCl, and showed decreased cytotoxicity to human monocytes and decreased hemolytic activity to red blood cells. However, the most prominent effect of the L. pneumophila ligA mutant strain LEPF1 was the nearly completely reduced replication within the natural host Acanthamoeba castellanii. Since this gene is L. pneumophila specific and regulates numerous bacterial properties we designated this gene ligA for Legionella pneumophila infectivity gene A.     

Application of RNA polymerase beta-subunit gene (rpoB) sequences for the molecular differentiation of Legionella species

The nucleotide sequences of the partial rpoB gene were determined from 38 Legionella species, including 15 serogroups of Legionella pneumophila. These sequences were then used to infer the phylogenetic relationships among the Legionella species in order to establish a molecular differentiation method appropriate for them. The sequences (300 bp) and the phylogenetic tree of rpoB were compared to those from analyses using 16S rRNA gene and mip sequences. The trees inferred from these three gene sequences revealed significant differences. This sequence incongruence between the rpoB tree and the other trees might have originated from the high frequency of synonymous base substitutions and/or from horizontal gene transfer among the Legionella species. The nucleotide variation of rpoB enabled more evident differentiation among the Legionella species than was achievable by the 16S rRNA gene and even by mip in some cases. Two subspecies of L. pneumophila (L. pneumophila subsp. pneumophila and subsp. fraseri) were clearly distinguished by rpoB but not by 16S rRNA gene and mip analysis. One hundred and five strains isolated from patient tissues and environments in Korea and Japan could be identified by comparison of rpoB sequence similarity and phylogenetic trees. These results suggest that the partial sequences of rpoB determined in this study might be applicable to the molecular differentiation of Legionella species.     

Legionella pneumophila mip gene sequencing to investigate a cluster of pneumonia cases

AIMS: To use fluorescent antibody (FA) and PCR studies on fixed lung tissue to investigate whether Legionella pneumophila was the cause of pneumonia in a cluster of three haematology patients. METHODS: Cut sections of paraffin blocks of lung tissue were examined by direct FA (DFA) using fluorescently labelled antibody to serogroup 1 and Pontiac strains of L. pneumophila. In addition, a single tube 'hanging drop' nested PCR targeting the mip gene of Legionella was performed on DNA extracted from the lung sections. Products were sequenced using dye terminator chemistry. RESULTS: Numerous fluorescing bacteria were seen on staining with both antibodies in lung tissue from two of the patients. Identical L. pneumophila mip gene sequences were amplified from both DFA-positive lung sections. Two differing L. pneumophila mip sequences were obtained on three separate occasions from the tissue sections from the third patient negative by DFA. These sequences differed slightly from those obtained from the two DFA positive lung tissues. CONCLUSIONS: There is good epidemiological evidence to link the first two cases who had been treated in the same ward prior to development of fever within two days of each other. The significance of results is controversial for the third patient.     

嗜肺军团菌生物膜的形成与毒力基因表达量分析

目的 初步探讨生物膜相关军团菌独特的毒力基因表达特征.方法 在富营养条件下建立静止状态的单细胞嗜肺军团菌生物膜模型.运用反转录real-time PCR技术,比较和分析浮游和生物膜状态下嗜肺军团菌部分毒力基因的表达,毒力基因包括mip、flaA和fliA基因.结果 对数生长后期与对数生长期浮游菌的mip、flaA和fliA基因表达量比值分别为0.53、4.45、3.67,对数生长期浮游菌显示复制态军团菌的毒力基凶表达特征,对数生长后期表达转移态军团菌特点.生物膜相关军团菌与对数生长期浮游菌的mip、flaA和fliA基因表达量比值为4.42、5.24、16.21;与对数生长后期浮游菌的比值为8.39、1.18、4.43,生物膜相关军团菌同时表达复制态和转移态军团菌毒力基因特征.结论 生物膜相关军团菌毒力基因的表达具有其特殊性,有待进一步研究.

Abstract：

Objective To investigate the physiological state of L. pneumophila in biofilm. Methods Genes previously identified as good markers for the transmissive and replicative phases of the L. pneumophila life cycle during growth in Acanthamoeba castellanii were examined for their expression fold change in the sessile cells as compared to planktonic cells using real-time RT PCR. Results Mature L. pneumophila biofilms were formed at 37t in 75 cm2 cell culture treated flasks for 18 days. The ratio of gene (mip, flaA and fliA) expression in post-exponential cells compared to exponential cells is 0. 53, 4. 45 and 3. 67. The exponential phase cultures display replicative traits and post-exponential bacteria express transmissive factors. The ratio of gene (mip, flaA and fliA) expression in sessile cells compared to exponential cells is 4.42, 5.24 and 16.21, while the sessile cells compared to exponential cells is 8.39, 1. 18 and 4. 43, respectively. Conclusion The violence gene expression of L pneumophila in biofilm is unique.     

Legionella pneumophila Mip, a surface-exposed peptidylproline cis-trans-isomerase, promotes the presence of phospholipase C-like activity in culture supernatants

The type II secretion system of Legionella pneumophila promotes pathogenesis. Among the Legionella type II-dependent exoenzymes is a p-nitrophenol phosphorylcholine (p-NPPC) hydrolase whose activity is only partially explained by the PlcA phospholipase C. In a screen to identify other factors that promote secreted hydrolase activity, we isolated a mip mutant. L. pneumophila Mip is a surface-exposed, FK506-binding protein that is needed for optimal infection and has peptidylproline cis-trans-isomerase (PPIase) activity. Since the molecular target of Mip was undefined, we investigated a possible relationship between Mip and the secreted p-NPPC hydrolase activity. In the mip mutant there was a 40 to 70% reduction in secreted activity that was successfully complemented by providing mip on a plasmid. A similar phenotype was observed when we examined four other independently derived mip mutants, and in all cases the defect was complemented by reintroduction of mip. Thus, mip promotes the presence of a p-NPPC hydrolase activity in culture supernatants. We also found that the C terminus of Mip is required for this effect. When supernatants were examined by anion-exchange chromatography, the p-NPPC hydrolase activity associated with Mip proved to be type II dependent but distinct from PlcA. This conclusion was supported by the phenotype of a newly constructed mip plcA double mutant. Thus, Mip promotes the elaboration of a new type II exoprotein. These data provide both the first evidence for a target for Mip and the first indication that a surface PPIase is involved in the secretion or activation of proteins beyond the outer membrane.     

应用单一和双重荧光定量PCR法快速检测军团菌

目的 建立单一和双重荧光定量PCR方法分别和同时进行军团菌属及嗜肺军团菌的检测.方法 利用军团菌属16 S rRNA基因和嗜肺军团菌mip基因设计引物和探针,两条基因探针分别标记FAM和HEX,并将相关反应体系和条件进行优化.分别应用单一基因探针(单一荧光定量PCR)和双重基因探针(双重荧光定量PCR)对嗜肺军团菌、非嗜肺军团菌及非军团菌进行检测,并验证两种方法的特异度、敏感度.应用双重荧光定量PCR检测空调水样滤膜样品和DNA提取样品,比较两者结果的一致性.结果 针对军团菌属及嗜肺军团菌,应用荧光定量PCR,16 S rRNA基因和mip基因均能较好的检出,16S rRNA和mip的最低检出限分别为8和10个拷贝.经优化得到了最佳反应体系.单一荧光定量PCR方法所检的8株嗜肺军用菌及4株非嗜肺军团菌16 S rRNA基因均为阳性,嗜肺军团菌mip基因阳性,非嗜肺军团菌mip基因阴性.双重荧光定量PCR方法所检的23株嗜肺军团菌中有2株为假阴性,9株非嗜肺军团菌和非军团菌属中有1株为假阳性.49份空调水样滤膜直接检测和提取DNA后检测的结果一致,其中26份水样军团菌阳性,20份为嗜肺军团菌,6份为非嗜肺军团菌;1份弗朗西斯菌检测HEX阳性(假阳性),占实际培养分离的1/26.结论 单一及双重荧光定量PCR法特异、快速、敏感,一次同时检测嗜肺与非嗜肺军团菌,满足对空调和环境水样军团菌监测的要求.     

应用单一和双重荧光定量PCR法快速检测军团菌

目的 建立单一和双重荧光定量PCR方法分别和同时进行军团菌属及嗜肺军团菌的检测.方法 利用军团菌属16 S rRNA基因和嗜肺军团菌mip基因设计引物和探针,两条基因探针分别标记FAM和HEX,并将相关反应体系和条件进行优化.分别应用单一基因探针(单一荧光定量PCR)和双重基因探针(双重荧光定量PCR)对嗜肺军团菌、非嗜肺军团菌及非军团菌进行检测,并验证两种方法的特异度、敏感度.应用双重荧光定量PCR检测空调水样滤膜样品和DNA提取样品,比较两者结果的一致性.结果 针对军团菌属及嗜肺军团菌,应用荧光定量PCR,16 S rRNA基因和mip基因均能较好的检出,16S rRNA和mip的最低检出限分别为8和10个拷贝.经优化得到了最佳反应体系.单一荧光定量PCR方法所检的8株嗜肺军用菌及4株非嗜肺军团菌16 S rRNA基因均为阳性,嗜肺军团菌mip基因阳性,非嗜肺军团菌mip基因阴性.双重荧光定量PCR方法所检的23株嗜肺军团菌中有2株为假阴性,9株非嗜肺军团菌和非军团菌属中有1株为假阳性.49份空调水样滤膜直接检测和提取DNA后检测的结果一致,其中26份水样军团菌阳性,20份为嗜肺军团菌,6份为非嗜肺军团菌;1份弗朗西斯菌检测HEX阳性(假阳性),占实际培养分离的1/26.结论 单一及双重荧光定量PCR法特异、快速、敏感,一次同时检测嗜肺与非嗜肺军团菌,满足对空调和环境水样军团菌监测的要求.     

Legionella pneumophila htpAB heat shock operon: nucleotide sequence and expression of the 60-kilodalton antigen in L. pneumophila-infected HeLa cells

A 60-kilodalton (kDa) immunodominant antigen of Legionella pneumophila is a heat shock protein (HSP) of the GroEL class of HSPs. The gene (htpB) coding the 60-kDa protein was localized to a 3.2-kilobase DNA fragment of L. pneumophila cloned into pUC19 (pSH16) (P. S. Hoffman, C. A. Butler, and F. D. Quinn, Infect. Immun. 57:1731-1739, 1989). The nucleotide sequence of the DNA fragment cloned into M13 confirmed two open reading frames, htpA and htpB, that code for proteins of 96 and 548 amino acids, respectively. A consensus heat shock promoter sequence upstream of the start of htpA was identified, and no obvious promoter sequences were detected upstream of htpB. Amino acid sequence comparison studies revealed that the L. pneumophila HtpB protein exhibited 76% homology with the 65-kDa protein of Mycobacterium tuberculosis and 85% homology with both GroEL of Escherichia coli and HtpB of Coxiella burnetii. A comparison of the amino acid sequences among these proteins revealed several regions of nearly absolute sequence conservation, with the variable regions occurring in common areas. The purified L. pneumophila 60-kDa protein was antigenic for human T lymphocytes. Indirect fluorescent antibody studies indicated that the 60-kDa protein may be located in the periplasm or expressed on the surface by intracellular bacteria, suggesting that a stress-related mechanism may be involved in the expression of this immunodominant antigen.     

Cloning and expression of a common Legionella outer membrane antigen in Escherichia coli

A genomic library of Legionella pneumophila was constructed by inserting L. pneumophila knoxville-1 strain (LPK-1) chromosome fragments into cosmid vector pHC79. Screening of the library with antibodies directed against a major outer membrane protein/lipopolysaccharide complex from LPK-1 resulted in the identification of six clones that reacted with the antiserum. Western blot analysis indicated that a 19,000 dalton (19 kDa) component was the reactive antigen in all of the clones. Western blot analysis of outer membranes from L. pneumophila serogroups and other Legionella species revealed that the cloned 19 kDa antigen was common to all serogroups and all but one of the five other Legionella species examined. One of the 19 kDa expressing clones was used as an immunoabsorbent to recover antibody to the 19 kDa antigen thus confirming the surface localization of this L. pneumophila antigen in E. coli.     

Cloning and functional characterization of a 30 kb gene locus required for lipopolysaccharide biosynthesis in Legionella pneumophila

The spontaneous Legionella pneumophila lipopolysaccharide (LPS) mutant 137, which did not bind the LPS-specific mAb 2625, was complemented with a genomic library from the parental wild-type strain. Transformants were screened for reconstitution of the wild-type LPS phenotype, able to bind mAb 2625. By this strategy, a 32,661 bp region comprising 30 open reading frames (Orfs) was identified. Orfs with significant homologies to genes encoding enzymes required for LPS or capsule biosynthesis of Gram-negative bacteria were located on the gene locus. The mutation of strain 137 could be assigned to a deletion of a cytosine residue in Orf 8. The protein encoded by Orf 8 exhibited homology to bacterial methyl-transferases. The L. pneumophila LPS gene locus included genes with deduced products likely to be involved in LPS core oligosaccharide biosynthesis (rmlA-D, rhamnosyl-transferases, acetyl-transferase) as well as LPS O-chain biosynthesis and translocation (mnaA, neuB, neuA, wecA, wzt, wzm). The neuA (Orf 25) and neuB (Orf 24) gene products were functionally characterized by complementation of the capsule negative E. coli K1 mutants EV5 and EV24, respectively. By introduction of the L. pneumophila neuA gene into E. coli EV5 and the neuB gene into EV24, expression of the K1 polysialic acid capsule could be restored. We, therefore, conclude that the biosynthesis pathway of legionaminic acid, the structural unit of the L. pneumophila Sg1 O-antigen, might be similar to the biosynthesis of sialic acid. Southern blot analysis indicated the entire gene locus to be present in L. pneumophila serogroup (Sg)1 strains, whereas only parts of the DNA stretch hybridized to DNA from Sg2 to Sg14 strains.     

Diagnosis of legionnaires' disease by urinary antigen and DNA detection: a case report

A 38-year-old male patient who was admitted to a private hospital in Kuala Lumpur presented with fever, symptoms of respiratory infection and diarrhoea. On admission, he was febrile, toxic looking, dehydrated with hypotension and tachycardia. No clinical signs of respiratory infection were detected on admission. Initially he was treated as a case of septicaemia with fluid therapy and intravenous antibiotic (Perfloxacin). Subsequently, he was noticed to have pneumonia in the right lower zone of the lung. His sputum, stool and blood were sent for culture and the results were negative. Sputum culture for Legionella and serological tests for Mycoplasma and Legionella were also reported negative. Sandwich ELISA performed on his urine sample detected Legionella pneumophila antigen. L. pneumophila mip gene was also detected in his urine by polymerase chain reaction. The patient was commenced on Erythromycin and he responded favourably to the treatment. The present case shows that L. pneumophila should not be overlooked as one of the causative agents of pneumonia and rapid techniques of urinary antigen and DNA detection should be utilized to make an early diagnosis of the infection.     

Cloning, genetic analysis, and nucleotide sequence of a determinant coding for a 19-kilodalton peptidoglycan-associated protein (Ppl) of Legionella pneumophila.

A genomic library of Legionella pneumophila, the causative agent of Legionnaires disease in humans, was constructed in Escherichia coli K-12, and the recombinant clones were screened by immuno-colony blots with an antiserum raised against heat-killed L. pneumophila. Twenty-three clones coding for a Legionella-specific protein of 19 kDa were isolated. The 19-kDa protein, which represents an outer membrane protein, was found to be associated with the peptidoglycan layer both in L. pneumophila and in the recombinant E. coli clones. This was shown by electrophoresis and Western immunoblot analysis of bacterial cell membrane fractions with a monospecific polyclonal 19-kDa protein-specific antiserum. The protein was termed peptidoglycan-associated protein of L. pneumophila (Ppl). The corresponding genetic determinant, ppl, was subcloned on a 1.8-kb ClaI fragment. DNA sequence studies revealed that two open reading frames, pplA and pplB, coding for putative proteins of 18.9 and 16.8 kDa, respectively, were located on the ClaI fragment. Exonuclease III digestion studies confirmed that pplA is the gene coding for the peptidoglycan-associated 19-kDa protein of L. pneumophila. The amino acid sequence of PplA exhibits a high degree of homology to the sequences of the Pal lipoproteins of E. coli K-12 and Haemophilus influenzae.     

Monoclonal antibodies to Legionella Mip proteins recognize genus- and species-specific epitopes.

Monoclonal antibodies (MAbs) against the virulence-associated Mip protein of Legionella spp. were raised by immunizing BALB/c mice with (i) Legionella pneumophila, (ii) Legionella micdadei, and (iii) purified recombinant native Mip protein cloned from L. pneumophila Philadelphia 1. Following screening of seeded wells by immunoblot analysis with homologous antigens, eight Mip-specific MAbs were found. These MAbs were chosen to investigate the antigenic diversity of Mip proteins in the genus Legionella. Mip was detected in 82 Legionella strains representing all 34 species tested. One of these MAbs, obtained from immunization with L. micdadei, recognized an epitope common to all Legionella species tested by immunoblot analysis. Another MAb was discovered to be specific for the Mip protein of L. pneumophila. The remaining six MAbs recognized 18 to 79% of Legionella species included in this study. By making use of the MAbs introduced in this study, it could be shown that, based on Mip protein epitope expression, Legionella species can be divided into at least six antigenetically distinct groups. As demonstrated by 43 L. pneumophila strains representing all serogroups, no antigenic diversity of Mip proteins was found for this species. In addition, 18 non-Legionella species, including Chlamydia trachomatis, Neisseria meningitidis, Pseudomonas aeruginosa, and Saccharomyces cerevisiae, all of which are known to carry genes homologous to the Legionella mip genes, were reacted against all eight MAbs. No cross-reactivity was detectable in any of those strains.