[Study of prevalence of rare and difficult to cultivate causative agents of inflammatory diseases of respiratory organs].

AIM: Study the prevalence of Mycoplasma pneumoniae, Chlamydophila pneumoniae, Chlamydophila psittaci, Legionella pneumophila, Moraxella catarrhalis, Cytomegalovirus, Herpes simplex I/II virus (HSV I/II) in individuals of various age groups with varying inflammatory broncho-pulmonary diseases. MATERIALS AND METHODS: 384 adults and 1001 children with clinically confirmed diagnoses were examined by PCR method: community-acquired pneumonia, acute bronchitis, bronchial asthma, ARD/ARVD, as well as 127 healthy children and 52 healthy adults. Sputum, smears from posterior fornix of pharynx, blood, saliva from children of the first year of life were used as material for the study. RESULTS: Wide prevalence of M. pneumoniae and C. pneumoniae among adults and M. pneumoniae among children older than 1 year with inflammatory diseases of respiratory organs was established. C. psittaci, L. pneumophila, M. catarrhalis occurred in isolated cases in both adults and children. Active replication of herpes group viruses was detected in patients of all age groups with inflammatory broncho-pulmonary diseases, and in children Cytomegalovirus replication predominated, in adults--HSV I/II. CONCLUSION: High frequency of prevalence of M. pneumoniae and C. pneumoniae in inflammatory diseases of respiratory tract was established, giving evidence of reasonability and necessity of examination of patients with various nosologic forms of diseases for these species of microorganisms with the aim of effective etiotropic therapy.

Monitoring clinical outcomes, pathological changes and shedding of Chlamydophila abortus following experimental challenge of periparturient ewes utilizing the natural route of infection.

Enzootic abortion of ewes (EAE) caused by Chlamydophila abortus is an important disease resulting in significant lamb loss in most sheep producing countries. Ewes are considered to be naturally infected with C. abortus via the oral-nasal route and may become persistent carriers, shedding during subsequent oestrous cycles and at lambing. The aim of this study was to monitor the clinical outcomes, pathological changes and shedding of C. abortus in 18 periparturient orally infected sheep for two breeding seasons. In the first season, C. abortus was detected by real-time PCR (rt-PCR) in 13/18 conjunctival swabs at oestrus. Three out of the 15 pregnant ewes gave birth to 1 live and 1 dead lamb, and 2 of them aborted. Following parturition/abortion, C. abortus was detected in 12/15 vaginal swabs and in all the collected foetal membranes. However, only those membranes containing high copy numbers of the bacterium displayed the EAE typical lesions. In the second season, none of the 13 pregnant ewes aborted, and 5 of them gave birth to dead or weak lambs. C. abortus was not detected in conjunctival or vaginal swabs at oestrus or parturition. The bacterium was detected at low levels in 36% of the foetal membranes, but with no evidence of histopathological lesions. These results indicate that C. abortus can be detected in a large proportion of animals during the first pregnancy after oral infection. However, this proportion is reduced at the subsequent breeding season, confirming the occurrence of a chronic low level persistent infection in post-abortion/lambing ewes.

Immunological paradigms and the pathogenesis of ovine chlamydial abortion.

Successful mammalian pregnancy involves complex immunological interactions between the mother and foetus that are not yet fully understood. A number of immunological paradigms have been established to explain the failure of the maternal immune system to reject the semi-allogeneic foetus, mainly based on studies in mice and humans. However, as placental structure, gestation periods and number of concepti per pregnancy can vary greatly between mammals, it is not always clear how applicable these immunological paradigms are to reproduction in other species. Here, we discuss the predictions of three important immunological paradigms in relation to the pathogenesis of ovine enzootic abortion (OEA), a common cause of infectious abortion in sheep and other ruminants. OEA is caused by the intracellular Gram-negative bacterium Chlamydophila abortus that exhibits a tropism for placental trophoblast. The paradigms of particular relevance to the pathogenesis of OEA are as follows: (i) intracellular bacterial infections are controlled by T(H)1-type CD4(+ve) T cells; (ii) indoleamine 2,3-dioxygenase is expressed in the placenta to prevent immunological rejection of the semi-allogeneic foetus; and (iii) pregnancy is a maternal T(H)2-type phenomenon. We discuss the relevance and validity of these paradigms for chlamydial abortion and reproductive immunology in sheep.

Recent advances in the understanding of Chlamydophila pecorum infections, sixteen years after it was named as the fourth species of the Chlamydiaceae family.

Chlamydophila pecorum found in the intestine and vaginal mucus of asymptomatic ruminants has also been associated with different pathological conditions in ruminants, swine and koalas. Some endangered species such as water buffalos and bandicoots have also been found to be infected by C. pecorum. The persistence of C. pecorum strains in the intestine and vaginal mucus of ruminants could cause long-term sub-clinical infection affecting the animal's health. C. pecorum strains present many genetic and antigenic variations, but coding tandem repeats have recently been found in some C. pecorum genes, allowing C. pecorum strains isolated from sick animals to be differentiated from those isolated from asymptomatic animals. This review provides an update on C. pecorum infections in different animal hosts and the implications for animal health. The taxonomy, typing and genetic aspects of C. pecorum are also reviewed.

Chlamydophila species in dairy farms: polymerase chain reaction prevalence, disease association, and risk factors identified in a cross-sectional study in western Germany.

The prevalence of Chlamydophila spp. was determined in a cross-sectional study carried out in 2007 using 100 randomly selected dairy herds in the western part of Germany. Ten dairy cows per herd were sampled in herds with fewer than 100 cows; in bigger herds, 10% of the cows were sampled. For the detection of Chlamydophila spp., vaginal swabs from early lactating dairy cows were analyzed using an established highly sensitive genus-specific real-time PCR. In consideration of the discontinuous shedding of the pathogen, a herd was classified as positive if at least 1 animal per herd tested positive for Chlamydophila spp. By use of these methods and definitions, 61% of the dairy herds and 13.5% of the cows were detected as PCR-positive for Chlamydophila spp., which is indicative for ongoing infections. To compare herd health and herd performance between herds testing positive or negative and to identify risk factors for the presence of Chlamydophila spp., a questionnaire was designed to evaluate farm characteristics and management practices. In addition, the performance recordings of the state dairy recording organization were used for these purposes. Milk yield, number of lactations, and calving to first-service interval were lower in herds testing positive for Chlamydophila spp. compared with negative herds. For all these variables, there was no interaction between Chlamydophila status and lactation number. Replacement of animals from outside sources, use of breeding bulls, lack of separate calving pens, and low scores for cleanliness of beddings, walkways, and cows were identified as the main risk factors for Chlamydophila spp.

Host alpha-adducin is redistributed and localized to the inclusion membrane in chlamydia- and chlamydophila-infected cells.

A large-scale analysis of proteins involved in host-cell signalling pathways was performed using chlamydia-infected murine cells in order to identify host proteins that are differentially activated or localized following infection. Two proteins whose distribution was altered in Chlamydia trachomatis-infected cells relative to mock-infected cells were the actin-binding protein adducin and the regulatory kinase Raf-1. Immunoblot analysis with antibodies to both phosphorylated and non-phosphorylated forms of these proteins demonstrated that the abundance of each protein was markedly reduced in the cytosolic fraction of C. trachomatis- and Chlamydophila caviae-infected cells, but the total cellular protein abundance remained unaffected by infection. Fluorescence microscopy of chlamydia-infected cells using anti-alpha-adducin antibodies demonstrated labelling at or near the chlamydial inclusion membrane. Treatment of infected cells with nocodazole or cytochalasin D did not affect alpha-adducin that was localized to the margins of the inclusion. The demonstration of alpha-adducin and Raf-1 redistribution within cells infected by different chlamydiae provides novel opportunities for analysis of host-pathogen interactions in this system.

Predator or prey? Chlamydophila abortus infections of a free-living amoebae, Acanthamoeba castellani 9GU.

Limited evidence exists to suggest that the ability to invade and escape protozoan host cell bactericidal activity extends to members of the Chlamydiaceae, intracellular pathogens of humans and animals and evolutionary descendants of amoeba-resisting Chlamydia-like organisms. PCR and microscopic analyses of Chlamydophila abortus infections of Acanthamoeba castellani revealed uptake of this chlamydial pathogen but, unlike the well-described inhabitant of A. castellani, Parachlamydia acanthamoebae, Cp. abortus did not appear to propagate and is likely digested by its amoebal host. These data raise doubts about the ability of free-living amoebae to serve as hosts and vectors of pathogenic members of the Chlamydiaceae but reveal opportunities, via comparative genomics, to understand virulence mechanisms used by Chlamydia-like organisms to avoid amoebal digestion.

Chlamydia effector proteins and new insights into chlamydial cellular microbiology.

Chlamydia and Chlamydophila sp. are highly related obligate intracellular bacterial pathogens that cause sexually transmitted diseases, ocular infections and atypical pneumonias. Relatively little is known about the molecular mechanisms by which Chlamydiae manipulate the mammalian host because they are intractable to genetic manipulation. Studies with heterologous expression systems have revealed a large set of chlamydial proteins that are potentially translocated into the host cytoplasm ('effector' proteins). As new cell biological observations are made and the function of effector proteins begin to be elucidated, a clearer picture of the extent to which Chlamydiae manipulate mammalian cellular processes is beginning to emerge, including the cell cycle, innate immunity, and lipid and membrane transport.

[Human diseases caused by chlamydia and chlamydophila]. / Choroby u ludzi spowodowane chlamydiamii chlamydofi lami.

Chlamydiae and Chlamydophilae are bacteria which are very common in the environment, the proof of which can be the recently described "environmental Chlamydiae". The classical Chlamydiae, such as Chlamydia trachomatis and Chlamydophila pneumoniae, posed a threat to human health, causing several diseases, including those with lethal course. In this article the biology and systematics of these bacteria and the diseases caused by them in humans, including those caused by classical and environmental Chlamydiae, are presented.

Chlamydomonas reinhardtii chloroplasts as protein factories.

Protein-based therapeutics are the fastest growing sector of drug development, mainly because of the high sensitivity and specificity of these molecules. Their high specificity leads to few side effects and excellent success rates in drug development. However, the inherent complexity of these molecules restricts their synthesis to living cells, making recombinant proteins expensive to produce. In addition to therapeutic uses, recombinant proteins also have a variety of industrial applications and are important research reagents. Eukaryotic algae offer the potential to produce high yields of recombinant proteins more rapidly and at much lower cost than traditional cell culture. Additionally, transgenic algae can be grown in complete containment, reducing any risk of environmental contamination. This system might also be used for the oral delivery of therapeutic proteins, as green algae are edible and do not contain endotoxins or human viral or prion contaminants.

Experimental infection of cats with Chlamydophila felis.

Cats experimentally infected with a British isolate of Chlamydophila felis (C. felis), B166 strain, by droplet into the eye and nose developed conjunctivitis, mild rhinitis and fever. The chlamydophila were first isolated from conjunctiva, nictitating membrane and then from lung, tonsil, liver, spleen, kidney, nasal and vaginal swabs and blood. These results indicate that C. felis B166 strain first infected and replicated in the conjunctiva and nictitating membrane in cats with symptoms which were mostly limited to conjunctivitis, and then pervaded the whole body by bacteremia.