First evidence of Candidatus Neoehrlichia mikurensis in Hungary

Altogether 2004 Ixodes ricinus ticks, from 37 places in Hungary, were analysed in pools with a recently developed multiplex real-time PCR for the presence of Candidatus Neoehrlichia mikurensis and for other representatives of the genus. Ca. Neoehrlichia mikurensis was identified in nine sampling sites, indicating three separated endemic regions along the borders of Hungary. In addition, results of samples from seven places (except for the western part of the country) were positive in the genus-specific (Ca. Neoehrlichia sp.) PCR, but were negative for Ca. Neoehrlichia mikurensis

Seasonally biased or single-habitat sampling is not informative on the real prevalence of Dermacentor reticulatus-borne rickettsiae — A pilot study

Dermacentor reticulatus is a tick species of high medical and veterinary importance, emerging in several parts of Europe. Up to now most studies focusing on zoonotic rickettsiae in D. reticulatus were based on ticks collected in a limited part of the questing period, and did not take into account the potential seasonal variations in the rate of infection with tick-borne rickettsiae. The aim of the present study was to investigate the latter phenomenon, i.e. to screen D. reticulatus adults, collected monthly in two urban habitats of Budapest, for the presence of three zoonotic Rickettsia spp. Altogether 852 D. reticulatus adults were collected, which showed significantly similar seasonal activity in the two evaluated habitats. Among the 413 molecularly analysed ticks, R. helvetica-infected D. reticulatus were only collected during autumn in habitat-1, in contrast to habitat-2. The overall prevalence of R. raoultii in D. reticulatus adults was significantly higher in habitat-1 than in habitat-2. In addition, the seasonal distribution of R. raoultii-infected ticks was different between the two habitats (in habitat-2 significantly more R. raoultii-infected ticks were collected in the autumn, in comparison with winter and spring). Rickettsia slovaca was not detected in any of the molecularly analysed ticks. The results clearly indicate that a single-time or seasonally biased collection of D. reticulatus adults and their subsequent molecular analysis may not be informative on the real prevalence of rickettsiae. This is because the availability/ activity of infected ticks shows significant seasonal fluctuations, both within and between habitats. Instead, for screening D. reticulatus-borne rickettsiae, it is important to collect monthly samples and then to assess seasonal prevalence and actual habitat-associated eco-epidemiological risks

Influence of the biotope on the tick infestation of cattle and on the tick-borne pathogen repertoire of cattle ticks in Ethiopia

Background: The majority of vector-borne infections occur in the tropics, including Africa, but molecular eco- epidemiological studies are seldom reported from these regions. In particular, most previously published data on ticks in Ethiopia focus on species distribution, and only a few molecular studies on the occurrence of tick-borne pathogens or on ecological factors influencing these. The present study was undertaken to evaluate, if ticks collected from cattle in different Ethiopian biotopes harbour (had access to) different pathogens. Methods: In South-Western Ethiopia 1032 hard ticks were removed from cattle grazing in three kinds of tick biotopes. DNA was individually extracted from one specimen of both sexes of each tick species per cattle. These samples were molecularly analysed for the presence of tick-borne pathogens. Results: Amblyomma variegatum was significantly more abundant on mid highland, than on moist highland. Rhipicephalus decoloratus was absent from savannah lowland, where virtually only A. cohaerens was found. In the ticks Coxiella burnetii had the highest prevalence on savannah lowland. PCR positivity to Theileria spp. did not appear to depend on the biotope, but some genotypes were unique to certain tick species. Significantly more A. variegatum specimens were rickettsia-positive, than those of other tick species. The presence of rickettsiae ( R. africae ) appeared to be associated with mid highland in case of A. variegatum and A. cohaerens . The low level of haemoplasma positivity seemed to be equally distributed among the tick species, but was restricted to one biotope type. Conclusions: The tick biotope, in which cattle are grazed, will influence not only the tick burden of these hosts, but also the spectrum of pathogens in their ticks. Thus, the presence of pathogens with alternative (non-tick-borne) transmission routes, with transstadial or with transovarial transmission by ticks appeared to be associated with the biotope type, with the tick species, or both, respectively

Impact of a freeway on the dispersal of ticks and Ixodes ricinus-borne pathogens: forested resting areas may become Lyme disease hotspots

Man-made barriers are well known for their effects on ecosystems. Habitat fragmentation, for instance, is a recognised consequence of modern-day infrastructure. The aim of the present study was to investigate the diversity and abundance of tick species, as well as the risks of acquiring tick-borne infections in habitats adjacent to a freeway. Therefore, ixodid ticks were collected from the vegetation at two-week intervals (in the main tick season, from March to June) in eight habitats of different types (forest, grove, grassland) along both sides of a freeway. Ixodes ricinus females were molecularly screened for three species of tick-borne bacteria. In the study period, 887 ixodid ticks were collected. These included 704 I. ricinus (79.4%), 51 Dermacentor reticulatus (5.7%), 78 D. marginatus (8.8%), 35 Haemaphysalis inermis (3.9%) and 19 H. concinna (2.1%). There was no significant difference in the abundance of tick species between similar habitats separated by the freeway, except for the absence of Dermacentor spp. on one side. In I. ricinus females, the overall prevalence of Anaplasma phagocytophilum was low, and (in part due to this low rate) did not show significant difference between the two sides of the freeway. Rickettsia helvetica had significantly different overall prevalence between two distant habitats along the same side of the freeway (12.3% vs. 31.4%), but not between habitats on the opposite sides. Borrelia burgdorferi s.l. showed significantly different overall prevalence between habitats both on the same and on the opposite sides of the freeway (8.6–35.9%), and the difference was higher if relevant habitats were also separated by the freeway. Importantly, the prevalence rate of the Lyme disease agent was highest in a forested resting area of the freeway, and was significantly inversely proportional to the prevalence of A. phagocytophilum (taking into account all evaluated habitats), apparently related to deer population density. Prevalence rates of these bacteria also differed significantly on single sampling occasions between: (1) closely situated habitats of different types; (2) distant and either similar or different habitat types; and (3) habitats on the opposite sides of the freeway. In conclusion, the findings of the present study show that a fenced freeway may contribute to differences in tick species diversity and tick-borne pathogen prevalence along its two sides, and this effect is most likely a consequence of its barrier role preventing deer movements

Detection, identification and functional characterisation of plant and microbial volatile organic compounds with inhibitory activity against two plant pathogens

Volatile organic compounds (VOCs) play crucial ecological roles in interactions among organisms. For example, plant VOCs can act as a powerful deterrent of herbivore insects and pathogens or they can act as resistance inducers to stimulate plant defences. Likewise, bioactive VOCs can be emitted by beneficial microorganisms and they may potentially act as key molecules in the microbe-microbe and plant-microbe communications. However, scarce information is available concerning the role of VOCs produced by grapevine (Vitis vinifera) plants and beneficial bacteria belonging to the Lysobacter genus in defence mechanisms against two important phytopathogenic oomycetes, namely Plasmopara viticola and Phytophthora infestans, which are the causal agents of grapevine downy mildew and potato late blight, respectively. The major objectives of this PhD thesis were the detection, identification and the functional characterization of VOCs from Vitis spp. and Lysobacter spp., in order to better understand their role in plant-microbe and microbe-microbe communications and to identify new active molecules from natural origin to control phytopathogens. In particular, VOCs from resistant and susceptible grapevine genotypes were identified following P. viticola inoculation and their effect as toxic molecules against downy mildew was explored (publications 1 and 2). Likewise, VOCs produced by Lysobacter spp. were identified and characterised, in order to identify microbial VOCs able to inhibit P. infestans growth (publication 3). In order to reach these goals, a headspace solid-phase microextraction gas chromatography-mass spectrometry (HS-SPME/GC-MS) and proton transfer reaction time of flight-mass spectrometry (PTR-ToF-MS) have been used. Two downy mildew resistant hybrids (SO4 and Kober 5BB) and the susceptible V. vinifera cultivar Pinot noir were analysed in vitro using PTR-ToF-MS. We found that P. viticola inoculation resulted in a significant increase monoterpene and sesquiterpene emission by resistant genotypes (SO4 and Kober 5BB) and not by the susceptible cultivar (Vitis vinifera Pinot noir; publication 1). Grapevine VOCs were further identified by HS-SPME/GC-MS using greenhouse-grown plants. The four resistant genotypes tested (BC4, Kober 5BB, SO4 and Solaris) showed significantly increased production of VOCs after P. viticola inoculation under greenhouse conditions. Conversely, no significant emission of volatile terpenes was detected from Pinot noir plants after P. viticola inoculation, suggesting that VOCs of resistant genotypes could play an important role in grapevine resistance against downy mildew. The chemical structures of P. viticola-induced VOCs were identified by retention index and the GC-MS spectrum evaluation and VOCs potentially involved in the grapevine resistance were selected according to their emission profiles. Pure compounds were tested against P. viticola by leaf disk assays and different experiments were set up, in order to elucidate the efficacy of pure VOCs both in a liquid suspension of P. viticola sporangia and after application via the gas phase. These experiments revealed six (2-phenylethanol, β-caryophyllene, β-selinene, trans-2-pentenal, 2-ethylfuran, and β-cyclocitral) and four VOCs (2-phenylethanol, trans-2-pentenal, 2-ethylfuran, and β-cyclocitral) which impaired downy mildew symptoms after direct application of liquid suspension and after treatment with VOC enriched air (without direct contact with the leaf tissue), respectively. With these results we demonstrated that VOCs produced by resistant grapevine genotypes are related to post-infection mechanisms and may contribute to grapevine resistance against P. viticola by inhibition of pathogen development (publication 2). In the second part of the PhD project, the volatilome of Lysobacter spp. was characterised for its inhibitory activity against the soil pathogen P. infestans (publication 3). The effect of VOCs emitted by Lysobacter strains was demonstrated in vitro by dual-culture assay and profiles were characterised by HS-SPME/GC-MS and PTR-ToF-MS analysis. Interestingly, the biocontrol activity and VOC profiles of Lysobacter spp. depended on the bacterial growth media. In particular, VOCs with inhibitory properties (pyrazines, pyrrole and decanal) were mainly emitted by Lysobacter type strains grown on a protein-rich medium, demonstrating the importance of the culture medium composition to optimise the biocontrol efficacy of Lysobacter spp. against plant pathogens. In summary, the presented thesis showed that both analytical chemistry techniques used (PTR-ToF-MS and HS-SPME/GC-MS) can be employed synergistically to detect and identify VOCs from different biological matrixes such as leaf tissue or bacterial cultures. The presented thesis also suggested that VOCs contribute to grapevine resistance and they can effectively be used to control economically important plant pathogens such as P. viticola. Furthermore, results generated in this work indicate that nutrient availability may affect the aggressiveness of Lysobacter spp. in the soil to maximise biocontrol efficacy against P. infestans. However, further metabolomic and transcriptomic analyses are required to investigate the VOC-mediated plant defence mechanisms and to characterize metabolic changes and VOC emissions of Lysobacter spp. grown in soil condition

Seasonally biased or single-habitat sampling is not informative on the real prevalence of Dermacentor reticulatus-borne rickettsiae - a pilot study

Dermacentor reticulatus is a tick species of high medical and veterinary importance, emerging in several parts of Europe. Up to now most studies focusing on zoonotic rickettsiae in D. reticulatus were based on ticks collected in a limited part of the questing period, and did not take into account the potential seasonal variations in the rate of infection with tick-borne rickettsiae. The aim of the present study was to investigate the latter phenomenon, i.e. to screen D. reticulatus adults, collected monthly in two urban habitats of Budapest, for the presence of three zoonotic Rickettsia spp. Altogether 852 D. reticulatus adults were collected, which showed significantly similar seasonal activity in the two evaluated habitats. Among the 413 molecularly analysed ticks, R. helvetica-infected D. reticulatus were only collected during autumn in habitat-1, in contrast to habitat-2. The overall prevalence of R. raoultii in D. reticulatus adults was significantly higher in habitat-1 than in habitat-2. In addition, the seasonal distribution of R. raoultii-infected ticks was different between the two habitats (in habitat-2 significantly more R. raoultii-infected ticks were collected in the autumn, in comparison with winter and spring). Rickettsia slovaca was not detected in any of the molecularly analysed ticks. The results clearly indicate that a single-time or seasonally biased collection of D. reticulatus adults and their subsequent molecular analysis may not be informative on the real prevalence of rickettsiae. This is because the availability/ activity of infected ticks shows significant seasonal fluctuations, both within and between habitats. Instead, for screening D. reticulatus-borne rickettsiae, it is important to collect monthly samples and then to assess seasonal prevalence and actual habitat-associated eco-epidemiological risks

Impact of a freeway on the dispersal of ticks and Ixodes ricinus-borne pathogens: forested resting areas may become Lyme disease hotspots

Man-made barriers are well known for their effects on ecosystems. Habitat fragmentation, for instance, is a recognised consequence of modern-day infrastructure. The aim of the present study was to investigate the diversity and abundance of tick species, as well as the risks of acquiring tick-borne infections in habitats adjacent to a freeway. Therefore, ixodid ticks were collected from the vegetation at two-week intervals (in the main tick season, from March to June) in eight habitats of different types (forest, grove, grassland) along both sides of a freeway. Ixodes ricinus females were molecularly screened for three species of tick-borne bacteria. In the study period, 887 ixodid ticks were collected. These included 704 I. ricinus (79.4%), 51 Dermacentor reticulatus (5.7%), 78 D. marginatus (8.8%), 35 Haemaphysalis inermis (3.9%) and 19 H. concinna (2.1%). There was no significant difference in the abundance of tick species between similar habitats separated by the freeway, except for the absence of Dermacentor spp. on one side. In I. ricinus females, the overall prevalence of Anaplasma phagocytophilum was low, and (in part due to this low rate) did not show significant difference between the two sides of the freeway. Rickettsia helvetica had significantly different overall prevalence between two distant habitats along the same side of the freeway (12.3% vs. 31.4%), but not between habitats on the opposite sides. Borrelia burgdorferi s.l. showed significantly different overall prevalence between habitats both on the same and on the opposite sides of the freeway (8.6-35.9%), and the difference was higher if relevant habitats were also separated by the freeway. Importantly, the prevalence rate of the Lyme disease agent was highest in a forested resting area of the freeway, and was significantly inversely proportional to the prevalence of A. phagocytophilum (taking into account all evaluated habitats), apparently related to deer population density. Prevalence rates of these bacteria also differed significantly on single sampling occasions between: (1) closely situated habitats of different types; (2) distant and either similar or different habitat types; and (3) habitats on the opposite sides of the freeway. In conclusion, the findings of the present study show that a fenced freeway may contribute to differences in tick species diversity and tick-borne pathogen prevalence along its two sides, and this effect is most likely a consequence of its barrier role preventing deer movements