Vera Forsbach-Birk

The Hfq Homolog in Legionella pneumophila Demonstrates Regulation by LetA and RpoS and Interacts with the Global Regulator CsrA

A gene in Legionella pneumophila that has significant homology to published hfq genes demonstrated regulation by RpoS and the transcriptional regulator LetA. Additionally, Hfq has a positive effect on the presence of transcripts of the genes for CsrA and the ferric uptake regulator Fur. Mutants lacking hfq demonstrate defects in growth and pigmentation and slight defects in virulence in both amoeba and macrophage infection models. Hfq appears to play a major role in exponential-phase regulatory cascades of L. pneumophila.

The response regulator LetA regulates the stationary-phase stress response in Legionella pneumophila and is required for efficient infection of Acanthamoeba castellanii

In order to identify a potential regulator of virulence gene expression in Legionella pneumophila, the L. pneumophila homologue of the response regulator GacA, LetA, was identified and cloned, facilitating the generation of a L. pneumophila letA insertion mutant. The L. pneumophila letA insertion mutant was more sensitive to oxidative and acid stress than the wild-type. The letA mutant exhibited reduced infectivity and was defective for intracellular growth within Acanthamoeba castellanii. Transcription of the rpoS and dotA genes was reduced in the letA mutant. Our data indicate that the response regulator LetA functions as a regulator of the stationary-phase stress response in L. pneumophila and is required for efficient replication within A. castellanii.

Overexpresssion of a Legionella pneumophila homologue of the E. coli regulator csrA affects cell size, flagellation, and pigmentation.

Legionella pneumophila is an inhabitant of the aquatic environment and the causative agent of a bacterial pneumonia. We identified the presence of an L. pneumophila homologue of csrA of E. coli and rsmA of Erwinia carotovora, genes which regulate gene expression by destabilising mRNA and which have been shown to relate to environmental fitness and pathogenicity. The Legionella csrA was able to complement a csrA-negative mutant of E. coli. Overproduction of csrA in L. pneumophila lead to a reduction of flagellation and pigmentation and an increase in bacterial cell size. csrA overproduction was associated with a reduction of fliA and flaA transcripts. This suggests that similar to E. coli and Erwinia, L. pneumophila csrA is a regulator of gene expression and may contribute to the capability of the pathogen to rapidly adapt to changing environments.

Role of High-Mobility Group Box 1 Protein and Poly(ADP-Ribose) Polymerase 1 Degradation in Chlamydia trachomatis-Induced Cytopathicity

ABSTRACT As intracellular bacteria, chlamydiae block the apoptotic pathways of their host cells. However, the infection of epithelial cells causes the loss of cell membrane integrity and can result in nonapoptotic death. Normally, cells undergoing necrosis release high-mobility group box 1 protein (HMGB1) that acts as an important proinflammatory mediator. Here, we show that in Chlamydia trachomatis-infected HeLa cells HMGB1 is not translocated from the nucleus to the cytosol and not released from injured cells in increased amounts. At 48 h after infection, degradation of HMGB1 was observed. In infected cells, poly(ADP-ribose) polymerase 1 (PARP-1), a DNA repair enzyme that also regulates HMGB1 translocation, was found to be cleaved into fragments that correspond to a necrosislike pattern of PARP-1 degradation. Cell-free cleavage assays and immunoprecipitation using purified proteolytic fractions from infected cells demonstrated that the chlamydial-protease-like activity factor (CPAF) is responsible for the cleavage of both HMGB1 and PARP-1. Proteolytic cleavage of PARP-1 was accompanied by a significant decrease in the enzymatic activity in a time-dependent manner. The loss of PARP-1 function obviously affects the viability of Chlamydia-infected cells because silencing of PARP-1 in uninfected HeLa cells with specific small interfering RNA results in increased cell membrane permeability. Our findings suggest that the Chlamydia-specific protease CPAF interferes with necrotic cell death pathways. By the degradation of HMGB1 and PARP-1, the pathogen may have evolved a strategy to reduce the inflammatory response to membrane-damaged cells in vivo.

Identification and evaluation of a combination of chlamydial antigens to support the diagnosis of severe and invasive Chlamydia trachomatis infections

Chlamydia trachomatis is the most common sexually transmitted organism in industrialized countries. Nucleic acid amplification testing, using non-invasively collected specimens, is considered to be the method of choice for diagnosis of chlamydial infections of the urethra and the lower genital tract. Serological testing has the potential to circumvent the problem of specimen sampling in invasive C. trachomatis infections of the upper genital tract. However, only a few defined chlamydial antigens have been used in a standardized diagnostic assay format. In this study, we used serological two-dimensional proteomic analysis to broaden the spectrum of diagnostically relevant C. trachomatis proteins. The genes encoding an assortment of already known chlamydial antigens, as well as immunogenic proteins that have not been described before, were cloned, and the recombinant proteins were purified in order to compare their diagnostic usefulness in parallel with a newly developed line immunoassay. With 189 sera collected from patients with and without C. trachomatis infection, recombinant major outer membrane protein (MOMP), chlamydial protease-like activity factor (CPAF), outer membrane protein 2 (OMP2), translocated actin-recruiting protein, and polymorphic membrane protein D (PmpD) showed the highest level of diagnostic sensitivity and specificity. In patients suffering from ascending and invasive C. trachomatis infections, such as pelvic inflammatory disease and lymphogranuloma venereum, the sensitivity reached with these proteins ranged between 71% (PmpD) and 94% (OMP2), and the specificity ranged between 82% (PmpD) and 100% (MOMP and OMP2). Recombinant thio-specific antioxidant peroxidase, ribosomal protein S1 (RpsA) and hypothetical protein 17 showed lower sensitivity but comparably high specificity, ranging from 94% to 100%. The novel line immunoassay based on defined recombinant antigens has promise for improved serodiagnosis in severe and invasive C. trachomatis infections.

Persistent Chlamydia trachomatis Infection of HeLa Cells Mediates Apoptosis Resistance through a Chlamydia Protease-Like Activity Factor-Independent Mechanism and Induces High Mobility Group Box 1 Release

ABSTRACT Intracellular persistence of Chlamydia trachomatis has been implicated in the development of chronic infection that can result in pelvic inflammatory disease and tubal sterility. By inhibition of host cell apoptosis, chlamydiae have evolved a strategy to maintain the intracellular environment for replication and persistence. Both antiapoptotic host cell-derived factors and the chlamydial protease-like activity factor (CPAF) are involved in Chlamydia-mediated apoptosis resistance. Here, we show that in HeLa cells infected with gamma interferon (IFN-γ)-induced persistent C. trachomatis serovar D, the expression of CPAF is downregulated, and proapoptotic protease substrates are not cleaved. Persistent infection protected HeLa cells from apoptosis when they were exposed to staurosporine. Small-interfering RNA-mediated inhibition of myeloid cell leukemia 1 (Mcl-1) protein upregulation sensitized persistently infected cells for apoptosis. The inhibitor of apoptosis protein 2 (IAP-2) seems not to be relevant in this context because IAP-2 protein was not induced in response to IFN-γ treatment. Although apoptosis was inhibited, persistent infection caused cell membrane disintegration, as measured by the increased release of cytokeratin 18 from HeLa cells. Moreover, persistently infected cells released significantly increased amounts of high mobility group box 1 (HMGB1) protein which represents a proinflammatory damage-associated pattern molecule. The data of this study suggest that cells infected with persistent C. trachomatis are protected from apoptosis independently of CPAF but may promote chronic inflammation through HMGB1 release.

Profiling Antibody Responses to Infections by Chlamydia abortus Enables Identification of Potential Virulence Factors and Candidates for Serodiagnosis

Enzootic abortion of ewes (EAE) due to infection with the obligate intracellular pathogen Chlamydia (C.) abortus is an important zoonosis leading to considerable economic loss to agriculture worldwide. The pathogen can be transmitted to humans and may lead to serious infection in pregnant women. Knowledge about epidemiology, clinical course and transmission to humans is hampered by the lack of reliable diagnostic tools. Immunoreactive proteins, which are expressed in infected animals and humans, may serve as novel candidates for diagnostic marker proteins and represent putative virulence factors. In order to broaden the spectrum of immunogenic C. abortus proteins we applied 2D immunoblot analysis and screening of an expression library using human and animal sera. We have identified 48 immunoreactive proteins representing potential diagnostic markers and also putative virulence factors, such as CAB080 (homologue of the “macrophage infectivity potentiator”, MIP), CAB167 (homologue of the “translocated actin recruitment protein”, TARP), CAB712 (homologue of the “chlamydial protease-like activity factor”, CPAF), CAB776 (homologue of the “Polymorphic membrane protein D”, PmpD), and the “hypothetical proteins” CAB063, CAB408 and CAB821, which are predicted to be type III secreted. We selected two putative virulence factors for further characterization, i.e. CAB080 (cMIP) and CAB063, and studied their expression profiles at transcript and protein levels. Analysis of the subcellular localization of both proteins throughout the developmental cycle revealed CAB063 being the first C. abortus protein shown to be translocated to the host cell nucleus.

Characterization of the potential virulence factors CAB063 and CAB821 of Chlamydia abortus

Introduction: The association between the major gastric pathogen Helicobacter pylori and humans dates back at least 100,000 years. Since that time H. pylori evolved in parallel with its human host, accompanying anatomically modern humans ‘out of Africa’ and differentiating into seven known biogeographic populations. Three of these are indigenous to Africa: hpNEAfrica, hpAfrica1, and hpAfrica2. The most divergent H. pylori population, hpAfrica2, is associated with the ancient San hunter-gatherers of southern Africa. This striking parallel between the oldest human and bacterial lineages led us to investigate the prevalence and genetic structure of H. pylori in another ancient hunter-gatherer population, the Cameroonian Baka Pygmies. Methods: Gastric biopsies were obtained for a total of 178 individuals, 77 of them belonging to the Baka Pygmy population and the remainder to neighboring agricultural Bantu communities. H. pylori was cultured from both antrum and corpus biopsies from each individual. The isolates were analyzed using MLST (Multilocus sequence typing). The population structure of distinct haplotypes was determined by Bayesian clustering using the program STRUCTURE. Phylogenetic analyses were perfomed using ClonalFrame. Results: The H. pylori prevalence among Baka pygmies (20%) was significantly lower compared to the non-Baka individuals (80%). MLST analysis of all isolates identified 113 unique haplotypes, ten of which were shared by more than one person. Subsequent STRUCTURE analyses assigned these isolates to either hpNEAfrica (67), hpAfrica1 (44), or hpEurope (2) populations. Among infected Baka and non-Baka individuals, the infection rates with hpNEAfrica and hpAfrica1 isolates were similar. In phylogenetic analyses using ClonalFrame we observed an intermediate position of the Cameroonian hpAfrica1 isolates between the already described hspSAfrica and hspWAfrica subpopulations corresponding to the geographic location of Cameroon between South and West Africa. Further STRUCTURE analyses of the hpNEAfrica population revealed a possible subdivision into an East African and a Central African subpopulation. Discussion: The results suggest that the Baka pygmies, which belong to one of the oldest branches of the human population tree and still live as hunter-gatherers, were initially H. pylori free and acquired H. pylori more recently from their neighboring Bantu communities.