Attachment of capsular polysaccharide to the cell wall of Streptococcus pneumoniae type 2 is required for invasive disease

The capacity of Streptococcus pneumoniae to produce capsular polysaccharide (CPS) is essential for virulence. The CPS biosynthesis proteins CpsB, CpsC, and CpsD function to regulate CPS production via tyrosine phosphorylation of CpsD. This mechanism of regulating CPS production is important for enabling S. pneumoniae to cause invasive disease. Here, we identify mutations affecting the attachment of CPS to the cell wall. These mutations were located in cpsC, such that CpsC functioned independently from CpsD tyrosine phosphorylation. These mutants produced WT levels of CPS, but were unable to cause bacteremia in mice after intranasal challenge. This finding suggests that cell-wall attachment of CPS is essential for invasive pneumococcal disease; production of WT levels of CPS alone is not sufficient. We also show that cpsB mutants, which lack the phosphotyrosine-protein phosphatase, produced less CPS than the WT strain, but attached substantially more CPS to their cell wall. Thus, the phosphorylated form of CpsD promotes attachment of CPS to the cell wall.     

Role of capsular polysaccharide and lipopolysaccharide of Klebsiella pneumoniae in experimental mice pneumonia model]

In this study, role of capsular polysaccharide (CPS) and lipopolysaccharide (LPS) of Klebsiella pneumoniae was investigated in experimental mice pneumonia model. Inoculation with K. pneumoniae mucoid strain DT-S into mice lung induced expansive, voluminous lethal pneumonia characterized with thickening of the alveolar septa caused by infiltration of inflammatory cell and packing of bacteria within alveolar spaces. On the other hand, mice lung inoculated with K. pneumoniae DT-X, which was non-mucoid mutant isolated from DT-S during natural passage, showed infiltration of inflammatory cell into alveolar spaces but there was no death of mice during the course of this pneumonia. Inoculation of CPS 100 micrograms of DT-S strain into mice lung induced lesser extent of accumulation of inflammatory cell than that of LPS 4 micrograms of this strain. Stimulation of alveolar and peritoneal macrophage with CPS, even at a concentration of 100 micrograms/ml, induced weaker Interleukin-1 (IL-1) activity than stimulation with LPS 4 micrograms/ml. These results suggest that since CPS of K. pneumoniae DT-S encapsulate bacteria including LPS, CPS may inhibit chemotaxis of inflammatory cell and IL-1 production of macrophage to be induced by LPS during course of pneumonia. It is speculated that existence of CPS have important role in modulating host response to bacterial LPS, and this effect of CPS may be related with difference of pathological findings of lung and lethality between K. pneumoniae DT-S and DT-X.     

鼠疫耶尔森菌小肽基因sORF34缺失株毒力及短期免疫保护效果评价

目的 探索小肽基因34(sORF34)缺失对鼠疫耶尔森菌毒力影响,并评价sORF34缺失株免疫保护活性。方法 基于鼠疫耶尔森菌201株和鼠疫耶尔森菌EV76疫苗株利用λ-Red一步法构建小肽基因缺失株。比较鼠疫小肽基因缺失株和亲本株之间的毒力差别,并采用皮下免疫方式对小鼠进行免疫,与EV76疫苗株比较,评价体液免疫、保护率等方面的差异。结果 PCR扩增结果证实,小肽基因缺失株构建成功。通过皮下LD₅₀测定、生存曲线测定,表明小肽基因缺失株较亲本株毒力下降。鼠疫201ΔsORF34和EV76ΔsORF34皮下免疫后可刺激机体产生抗F1-IgG,其中鼠疫201ΔsORF34免疫组抗体滴度与EV76疫苗株免疫组差异无统计学意义(P>0.05),EV76ΔsORF34免疫组较EV76疫苗株免疫组抗体滴度低;鼠疫EV76ΔsORF34株可刺激机体产生低滴度抗LcrV-IgG,而EV76和201ΔsORF34株不能刺激机体产生抗LcrV-IgG。初免后42 d使用致死剂量鼠疫201株进行皮下攻毒和滴鼻攻毒,3组保护率差异无统计学意义(P>0.05)。结论 小肽基因缺失株经皮下途径感染BALB/c小鼠的毒力下降,鼠疫EV76ΔsORF34株较EV76疫苗株残存毒力进一步下降,但保护率差异无统计学意义(P>0.05),EV76ΔsORF34株有作为鼠疫减毒活疫苗候选株的潜力。     

Analysis of the resistance gene in Streptococcus pneumoniae

Resistance genes were determinded for 81 strains of Streptococcus pneumoniae isolated from Ehime University hospital, during 2002 and 2003 by various clinical material. In penicillin-binding proteins of mutation, there were 74 strains; pbp2x mutation 23 strains (28.4%), pbp2b mutation one strain (1.2%), pbp1a + pbp2x mutations 5 strains (6.2%), pbp2x + pbp2b mutations 18 strains (22.2%) and all mutations 27 strains (33.3%). As for the result of macrolide resistance genes, there were 67 strains; mefA gene 20 strains (24.7%), ermB gene 46 strains (56.8%) and both gene one strain (1.2%). In the analysis of gyrA gene and parC gene, 3 strains (3.7%) had both gene mutations, and 26 strains (32.1%) had only parC gene mutation. There was more of an increase than before in isolates, two or more mutation strains with PBPs gene, ermB gene holding strains and the levofloxacin resistance strain. These results suggest that the gyrA gene or parC gene mutation strains hold PBPs gene mutation and macrolide resistance genes in a high rate, and there will be more drug resistance in the future.     

Designed reduction of Streptococcus pneumoniae pathogenicity via synthetic changes in virulence factor codon-pair bias

In this study, we used a previously described method of controlling gene expression with computer-based gene design and de novo DNA synthesis to attenuate the virulence of Streptococcus pneumoniae. We produced 2 S. pneumoniae serotype 3 (SP3) strains in which the pneumolysin gene (ply) was recoded with underrepresented codon pairs while retaining its amino acid sequence and determined their ply expression and pneumolysin production in vitro and their virulence in a mouse pulmonary infection model. Expression of ply and production of pneumolysin of the recoded SP3 strains were decreased, and the recoded SP3 strains were less virulent in mice than the wild-type SP3 strain or a Δply SP3 strain. Further studies showed that the least virulent recoded strain induced a markedly reduced inflammatory response in the lungs compared with the wild-type or Δply strain. These findings suggest that reducing pneumococcal virulence gene expression by altering codon-pair bias could hold promise for rational design of live-attenuated pneumococcal vaccines.     

肺炎衣原体肺炎小鼠模型的建立与实验研究

目的 通过复制小鼠肺炎衣原体感染模型,对肺炎衣原体肺炎的发病机制进行初步的探讨。方法 以肺炎衣原体鼻内或静脉接种Icr小鼠,通过不同时点（60d)处死动物,观察其肺部的病理改变。结果 鼻内接种肺炎衣原体后,Icr小鼠可以产生肺部感染,特征性道理改变为斑片状间质性肺炎,早期（7d内）病变较重,以嗜中性粒浸润为主,并伴有泡沫细胞堆积;后期（14d以后）病变开始减轻,以嗜中性粒细胞和淋巴细胞混合浸润为主,并逐渐转为以淋巴细胞浸润为主。静脉接种肺炎衣原体后的肺部改变与鼻内接种类似,但病变程度要轻得多,范围也要小得多,恢复正常的时间也较快,两者差异在发病早期更为明显。以聚合酶链反应（PCR）法在接种后的肺组织中间歇性检测到肺炎衣原体DNA。被接种的小鼠可以产生血清IgG抗体。结论 给Icr小鼠接种肺炎衣原体可以产生以间质性肺炎为特征的肺部感染,鼻内接种者更为明显。     

Effect of choline chloride in allergen-induced mouse model of airway inflammation.

The incidence of asthma has increased the world over, and current therapies for the disease suffer from potential side-effects. This has created an opportunity to develop novel therapeutic approaches. Here, the anti-inflammatory activity of choline was investigated in a mouse model of allergic airway inflammation. Choline (1 mg.kg(-1)) was administered via oral gavage or intranasally before and after ovalbumin (OVA) challenge in sensitised mice. Airway hyperresponsiveness (AHR) to methacholine was measured in the mice by whole-body plethysmography. Type-2 T-helper cell cytokine and leukotriene levels were estimated in bronchoalveolar lavage fluid (BALF) and spleen culture supernatant by ELISA. Eosinophil peroxidase activity was also determined in the BALF supernatant. Choline treatment in sensitised mice before OVA challenge via oral/intranasal routes significantly inhibited eosinophilic airway inflammation and eosinophil peroxidase activity. It also reduced immunoglobulin E and G1 production and inhibited the release of type-2 T-helper cell cytokines and leukotrienes. However, the development of AHR was prevented effectively by intranasal choline treatment. Most importantly, choline treatment after OVA challenge by both routes could reverse established asthmatic conditions in mice by inhibiting AHR, eosinophilic airway inflammation and other inflammatory parameters. This study provides a new therapeutic approach for controlling as well as preventing asthma exacerbations.     

CD4+ T cells mediate antibody-independent acquired immunity to pneumococcal colonization

Acquired immunity to Streptococcus pneumoniae (pneumococcus) has long been assumed to depend on the presence of anticapsular antibodies. We found, however, that colonization with live pneumococci of serotypes 6B, 7F, or 14 protected mice against recolonization by any of the serotypes and that protection from acquisition of a heterologous or homologous strain did not depend on anticapsular antibody. Further, intranasal immunization by live pneumococcal colonization or by a killed, nonencapsulated whole-cell vaccine protected antibody-deficient mice against colonization, suggesting independence of antibodies to any pneumococcal antigens. Protection by intranasal immunization with whole-cell vaccine was completely abrogated in T cell-deficient mice, and in mice that were congenitally deficient in CD4(+) T cells or depleted of these cells at the time of challenge. In contrast, mice congenitally deficient in, or depleted of, CD8(+) T cells were fully protected. Protection in this model was observed beyond 2 months after immunization, arguing against innate or nonspecific immune mechanisms. Thus, we find that immunity to pneumococcal colonization can be induced in the absence of antibody, independent of the capsular type, and this protection requires the presence of CD4(+) T cells at the time of challenge.     

Mutations of gyrA gene and parC gene in Streptococcus pneumoniae]

Fifty-six levofloxacin-susceptible strains of Streptococcus pneumoniae were isolated from various clinical material in July, 2002 from June, 2001, examined antimicrobial susceptibility testing of levofloxacin and sparfloxacin, and performed analysis of gyrA gene and parC gene. 56 strains were not sparfloxacin-resistance. There was not found to mutation of gyrA gene. However, the individual mutations of parC gene were accepted by 13 strains among 56 strains which showed sensitivity by levofloxacin. One strain was Asp-78-->Asn, other one strain was Ser-79-->Phe, and 11 strains were Lys-137-->Asn. These results suggest that fluoroquinolone-resistance could be due to the multiple mutations in gyrA gene and parC gene, although the individual mutation of parC gene existed also in levofloxacin-susceptible strains.     

Relation of colonial morphologies of strain of Streptococcus pneumoniae in soft-agar to the encapsulation.

Among 40 fresh isolates of Streptococcus pneumoniae 12, 25 and 3 strains, respectively, exhibited large round, small round and compact colonial morphologies in soft-agar medium. Every large round strain possessed a capsule, almost half of the small round strains had capsules, while all of the large round type growth showed very high mouse virulence and 1.0 mg of these organisms was capable of absorbing a minimal amount of passive protective antibody in rabbit antiserum, prepared with the homologous strain, against challenge infection with homologous organisms in mice. Its variant showing compact type growth in soft-agar was mouse avirulent and a similar amount of the mouse passive protective antibody could not be absorbed with 100 mg of these organisms. These experimental results indicate that the soft-agar technique can be used for the identification of encapsulated strains of Streptococcus pneumoniae.     

Antibody to capsular polysaccharide of Streptococcus pneumoniae at the time of hospital admission for Pneumococcal pneumonia

IgG to capsular polysaccharide (CPS) of Streptococcus pneumoniae is thought to provide the greatest degree of protection against pneumococcal disease. Serum obtained at hospital admission from 14 (27%) of 51 patients with bacteremic pneumococcal pneumonia and 11 (37%) of 30 with nonbacteremic pneumococcal pneumonia contained IgG to CPS of the infecting serotype; these percentages are similar to the prevalence of IgG to CPS in a control population. However, when compared with antibody from healthy adults, this IgG had far less capacity to opsonize the infecting pneumococcal serotype for phagocytosis in vitro by normal human polymorphonuclear leukocytes or to protect mice against experimental challenge. Failure to opsonize correlated closely with failure to protect mice, and each of these parameters correlated well with poor avidity for CPS. Future vaccine studies may need to examine the functional capacity of antibodies as a surrogate for infection, in addition to measuring their concentration in serum.     

Use of a mouse lung challenge model to identify antigens protective against Chlamydia pneumoniae lung infection

Chlamydia pneumoniae is emerging as a significant human pathogen. Infection causes a range of respiratory tract diseases and is associated with atherosclerosis. A vaccine could provide a considerable public health benefit; however, antigens able to elicit a protective immune response are largely unknown. A panel of open-reading frames (ORFs) from the C. pneumoniae genome sequence was screened for ability to elicit protective responses. Balb/c mice immunized with DNA containing the ORFs were tested for their ability to limit lung infection following an intranasal challenge. Immunization with DNA encoding the major outer membrane protein or an ADP/ATP translocase (Npt1(Cp)) of C. pneumoniae resulted in a reduced bacteria load in the lung after challenge. The identification of these antigens as protective is a significant step toward development of a C. pneumoniae vaccine and demonstrates the feasibility of using a DNA immunization strategy to screen the C. pneumoniae genome for other protective ORFs.     

Antibody to genome-derived neisserial antigen 2132, a Neisseria meningitidis candidate vaccine, confers protection against bacteremia in the absence of complement-mediated bactericidal activity

Genome-derived neisserial antigen 2132 (GNA2132) is a novel vaccine candidate that was identified during the Neisseria meningitidis group B strain MC58 genome-sequencing project. To assess the vaccine potential of GNA2132, we prepared antisera from mice immunized with recombinant GNA2132 (gene from strain NZ394/98). Anti-GNA2132 antibody bound to the surface of live bacteria from all 7 capsular group B or C strains tested and elicited deposition of human C3b on the bacterial surface. However, with human or infant-rat complement, anti-GNA2132 had no detectable bactericidal activity (titer, <1:4) against the nominal strain, NZ394/98, and was bactericidal against only 2 of the other 6 strains tested. These differences between strains were unrelated to GNA2132 amino acid sequence or level of protein expression. Despite lack of bactericidal activity, anti-GNA2132 antiserum passively protected infant rats against meningococcal bacteremia after challenge with all 5 resistant strains. GNA2132 is thus a promising vaccine candidate for prevention of disease caused by N. meningitidis.     

Streptococcus pneumoniae surface-exposed glutamyl tRNA synthetase, a putative adhesin, is able to induce a partially protective immune response in mice

Glutamyl tRNA synthetase (GtS) has been found to be among the Streptococcus pneumoniae cell wall-derived proteins that have age-dependent immunogenicity in children. Here, GtS was cloned, expressed, and purified and then was used to immunize 7-week-old BALB/c OlaHsd mice. Serum obtained from mice immunized with recombinant (r) GtS cross-reacted with a 55.9-kDa protein, identified as GtS, in the cell wall fraction derived from genetically and capsularly unrelated strains of S. pneumoniae. Surface localization of GtS was further confirmed using flow cytometry analysis. The rGtS and anti-rGtS antiserum significantly inhibited the adhesion of 3 pairs of encapsulated and unencapsulated strains of S. pneumoniae to A549 cells. Thirty-nine percent of rGtS-immunized mice survived a lethal bacterial challenge, whereas no control mice survived. These results suggest that GtS, an age-dependent S. pneumoniae antigen, is a surface-located adhesin that is capable of inducing a partially protective immune response against S. pneumoniae in mice.     

Serum-induced iron-acquisition systems and TonB contribute to virulence in Klebsiella pneumoniae causing primary pyogenic liver abscess

BACKGROUND: Klebsiella pneumoniae has become the predominant pathogen causing primary pyogenic liver abscess (PLA). METHODS: K. pneumoniae was stimulated by human serum, and gene expression was analyzed by microarray. RESULTS: Three putative iron acquisition systems, Yersinia high-pathogenicity island (HPI), iucABCDiutA, and iroA(iroNDCB), that increased in expression and predominated in PLA-associated K. pneumoniae strains were identified. By use of siderophore uptake assays, these 3 systems were confirmed to be siderophore-dependent iron acquisition systems. Only the irp2-iuc-iroA triple mutant showed decreased virulence in mice. Full-genome analysis of K. pneumoniae strain NTUH-K2044 identified 10 putative iron uptake systems. Seven of these 10 systems were TonB dependent, including Yersinia HPI, iucABCDiutA, and iroA. A tonB deletion mutant was demonstrated to have profound attenuation of virulence. Immunization with the tonB mutant resulted in seroconversion of extracellular polysaccharide antibodies and protective efficacy against subsequent exposure to the parental strain. CONCLUSIONS: Iron uptake systems were the genes in K. pneumoniae that were highly up-regulated in response to sera. Although there are multiple iron transporter systems in NTUH-K2044, a mutation in all 3 loci (irp2, iuc, and iroA) is necessary to decrease virulence. The tonB mutant is a potential vaccine candidate because it can induce a significant protective immune response against challenge with a wild-type strain.     

Gliotoxin production in Aspergillus fumigatus contributes to host-specific differences in virulence

BACKGROUND: Gliotoxin is a epipolythiodioxopiperazine toxin that is made by the filamentous fungus Aspergillus fumigatus. Gliotoxin has a wide range of effects on metazoan cells in culture, including induction of apoptosis through inhibition of Nf-kappaB, and inhibition of superoxide production by phagocytes. These activities have led to the proposal that gliotoxin contributes to pathogenesis during invasive aspergillosis. We tested this hypothesis by creating isogenic strains of gliotoxin-producing and nonproducing strains. METHODS: We deleted gliP, the gene that encodes the nonribosomal peptide synthetase GliP. GliP catalyzes the first biosynthetic step in the synthesis of gliotoxin. We then tested for gliotoxin production and virulence in different animal models. RESULTS: Deletion of gliP resulted in strains that were wild type for growth, but they did not synthesize gliotoxin. Transformation of gliP deletion mutants with a full copy of gliP restored gliotoxin production. The gliP deletion strain had attenuated virulence in nonneutropenic mice immunosuppressed with corticosteroids, but had normal virulence in neutropenic mice. It also had reduced virulence in a Drosophila melanogaster model. CONCLUSIONS: Gliotoxin only contributes to the virulence of A. fumigatus in nonneutropenic mice and in fruit flies with functional phagocytes. These results suggest that the principal targets of gliotoxin are neutrophils or other phagocytes.     

Bacteriophage in the treatment of experimental septicemic mice from a clinical isolate of multidrug resistant Klebsiella pneumoniae

Drug resistance is the major cause of increase in morbidity and mortality in neonates. The emergence of antibiotic-resistant bacterial strains requires the exploration of alternative antibacterial therapies and the concern that human kind in re-entering the 'pre-antibiotic era' has become very real and the development of alternative anti-infection modalities has become one of the highest priorities of modern medicine and biotechnology. This has spurred biomedical researchers to expand their efforts to identify new technologies and products that employ novel mechanism of action against the "super-bugs". One of such alternatives stems up from an old idea is the bacteriophage therapy, which led our group to study the ability of bacterial viruses (bacteriophages or phages) to rescue septicemic mice with multidrug resistant (MDR) Klebsiella pneumoniae isolated from neonatal septicemia. The phage strain used in this study had lytic activity against a wide range of clinical isolates of MDR Klebsiella pneumoniae. One of these MDR Klebsiella strain was used to induce septicemia in mice by intraperitoneal (i.p.) injection of 10(9) CFU. The resulting bacteremia was fatal within 48 h. A single i.p. injection of 3x10(8) PFU of the phage strain administered 45 min after the bacterial challenge, was sufficient to rescue 100% of the animals. Even when treatment was delayed to the point where all animals were moribund, approximately 50% of them were rescued by a single injection of this phage preparation. The ability of this phage to rescue septicemic mice was demonstrated to be due to the functional capabilities of the phage and not to a nonspecific immune effect. The rescue of septicemic mice could be affected only by phage strains able to grow in vitro on the bacterial host used to infect the animals and when such strains are heat inactivated they lose their ability to rescue the infected mice.     

Nitric oxide synthase plays a role in Chlamydia pneumoniae-induced atherosclerosis

OBJECTIVE: Chlamydia pneumoniae infection has been associated with atherosclerosis, although the mechanisms by which C. pneumoniae contribute to atherogenesis remain unclear. Altered production of nitric oxide, a known bactericidal and anti-inflammatory agent, represents one possible mechanistic link. To examine this issue, a diet-induced, hyperlipidemic mouse model of early atherosclerosis was used. METHODS: A series of intranasal inoculations of C. pneumoniae strain AR-39 were administered to mice lacking endothelial or inducible nitric oxide synthase and to normal controls. After 18 weeks on an atherogenic diet, atherosclerotic lesion area in the aortic sinus was measured using computer-assisted morphometry. RESULTS: In the absence of C. pneumoniae infection, diet-fed eNOS(-/-) mice developed enlarged fatty streak lesions of borderline significance in comparison to uninfected, wild-type mice, while the lesion area in uninfected, diet-fed iNOS(-/-) mice did not differ significantly from lesion area in wild-type animals. In contrast, lesion area in infected eNOS(-/-) mice increased slightly, but not significantly in comparison to uninfected eNOS(-/-) mice. Lesion area in the infected iNOS(-/-) mice was significantly enlarged when compared to both uninfected iNOS(-/-) mice as well as to infected wild-type mice. CONCLUSIONS: These data suggest that production of nitric oxide by eNOS protects against development of fatty streak lesions in uninfected hyperlipidemic mice, but does not offer additional protection in infected hyperlipidemic mice, while iNOS may play a protective role, thus limiting chlamydial exacerbation of fatty streak lesions.     

Resistance to antimicrobiotics and mutation of PBPs in Streptococcus pneumoniae isolated from Kinki region of Japan

We studied the susceptibility to penicillin G (PCG) and other antimicrobiotics in 235 clinical isolates of Streptococcus pneumoniae. Samples were collected between April 1 and June 30, 2000 from nine medical institutions of the Kinki Region of Japan. We classified the minimum inhibitory concentration (MIC) of PCG according to the National Committee for Clinical Laboratory Standards (NCCLS) criteria. The overall rate of all types of S. pneumoniae resistance was 53.2% (penicillin-susceptible S. pneumoniae (PSSP): 46.8%, penicillin-intermediate S. pneumoniae (PISP): 42.6%, penicillin-resistant S. pneumoniae (PRSP): 10.6%). In other antimicrobiotics, the resistance (R)/intermediate susceptibility (I) rates (R/I%) were as follows: ceftriaxone, 28.9%; cefotaxime, 7.7%; imipenem, 8.9%; meropenem, 9.8%; clarithromycin, 82.6%; clindamycin, 42.1%; levofloxacin, 0.4%; vancomycin, 0%. We used the polymerase chain reaction to study the mutations of the penicillin-binding proteins pbp1 a, pbp2b, and pbp2x in 140 strains of S. pneumoniae in the MIC for PCG was < 0.5 microgram/ml. Among the 109 strains of PSSP, 32 (29.4%) had no mutation and 77 (70.6%) showed mutation of more than one of the pbp mutations. Among the 31 strains of PISP, only 1 strain (3.2%) was not mutated. Since 70.6% of the strains classified as PSSP had pbp mutations, S. pneumoniae clearly can acquire resistance to anti-microbiotics. In the future, a comprehensive surveillance of S. pneumoniae is necessary.     

Chlamydia pneumoniae does not increase atherosclerosis in the aortic root of apolipoprotein E-deficient mice

In epidemiological studies, an association between cardiovascular disease and Chlamydia pneumoniae (C pneumoniae) infection has been observed. Although C pneumoniae has been shown to be present in atherosclerotic lesions, a causal relationship between C pneumoniae infection and atherosclerosis has not been demonstrated. To study this question, we used 2 strains of apolipoprotein (apo) E-deficient mice. Eight-week-old mice on an FVB background that were maintained on either a low- or a high-fat diet were infected 3 times at 1-week intervals with C pneumoniae, and atherosclerotic lesions were measured in the aortic root at 10 weeks after the primary infection. In each of the diet groups, no difference in the extent of atherosclerosis could be observed between the C pneumoniae-infected and control animals. In further studies, 2 strains of apoE-deficient mice (FVB or C57BL/6J background) were infected 4 times at 3- to 4-week intervals, and the extent of atherosclerosis was analyzed 18 weeks later. The mice were kept on either a low- or a high-fat diet. The high-fat diet increased atherosclerosis, and a difference in atherosclerosis susceptibility between the mouse strains was observed. However, C pneumoniae infection did not influence lesion size in either mouse strain. On the other hand, C pneumoniae could not be demonstrated by polymerase chain reaction in any of the atherosclerotic lesions of the infected animals studied. A small decrease in serum cholesterol and triglyceride levels 3 days after the primary infection occurred, but after that no differences in serum lipid levels compared with those in noninfected animals were evident. In the myocardium of C pneumoniae-infected mice, no inflammatory signs could be observed. We conclude that under the experimental conditions used, C pneumoniae infection does not accelerate atherogenic changes in the aortic root of apoE-deficient mice.