Hermann Willems

Molecular characterization of Coxiella burnetii isolates.

Restriction fragment length polymorphism (RFLP) was used for the differentiation of 80 Coxiella burnetii isolates derived from animals and humans in Europe, USA, Africa and Asia. After NotI restriction of total C. burnetii DNA and pulsed field gel electrophoresis (PFGE) 20 different restriction patterns were distinguished. The index of discrimination for this typing system was 0.86. Comparison and phylogenetic analysis of the different RFLP patterns revealed evolutionary relationships among groups that corresponded to the geographical origin of the isolates. This finding was confirmed by genetic mapping. No correlation between restriction group and virulence of isolates was detected.

Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) infection in wild boars

The Porcine Reproductive and Respiratory Syndrome (PRRS) is one of the economically most important swine diseases worldwide. The virus can be spread by viraemic and persistent infected pigs. Spread and infection are advanced in areas with high herd and population densities. As wild boars have been found seropositive for PRRSV in Germany, France, and the USA, exchange between wild and domestic pig populations may exist. However, comprehensive information on PRRSV infection in wild boars is presently not available. The aim of the current study was thus, to systematically study PRRSV infection in wild boars to provide information on spatiotemporal, host and viral effects. The study was based on 531 wild boars from 52 hunts in Germany (2004-2007). PRRSV infection was determined and strains (US/EU) were classified by PCR. A total of 15.9% of the wild boars were PRRSV-positive (US: 14.2%; EU: 6.2%), with remarkable effects of state (US: 5.1-46.2%; EU: 0-17.6%), season (0-36.5%) and tissue (lungs: 89%; tonsils: 11%). Prevalences did neither correlate with age or weight, nor with density of production units, domestic pigs or wild boars. Open reading frame (ORF) 1-sequences within EU- and US-strains did not differ among wild boar samples. Homologies between EU-samples/Lelystad-virus and US-samples/PRRSV-MLV virus were 99.3 and 97%, respectively. This is the first comprehensive evidence of PRRSV infection in wild boars. We conclude that there is only a weak relation between wild boar and domestic PRRSV infection.

Quantitative trait loci for white blood cell numbers in swine

Differential white blood cell counts are essential diagnostic parameters in veterinary practice but knowledge on the genetic architecture controlling variability of leucocyte numbers and relationships is sparse, especially in swine. Total leucocyte numbers (Leu) and the differential leucocyte counts, i.e. the fractions of lymphocytes (Lym), polymorphonuclear leucocytes [neutrophils (Neu), eosinophils (Eos) and basophils (Bas)] and monocytes (Mon) were measured in 139 F(2) pigs from a Meishan/Pietrain family, before and after challenge with the protozoan pathogen Sarcocystis miescheriana for genome-wide quantitative trait loci (QTL) analysis. After infection, the pigs passed through three stages representing acute disease, reconvalescence and chronic disease. Nine genome-wide significant and 29 putative, single QTL controlling leucocyte traits were identified on 15 chromosomes. Because leucocyte traits varied with health and disease status, QTL influencing the leucocyte phenotypes showed specific health/disease patterns. Regions on SSC1, 8 and 12 contained QTL for baseline leucocyte traits. Other QTL regions reached control on leucocyte traits only at distinct stages of the disease model. Two-thirds of the QTL have not been described before. Single QTL explained up to 19% of the phenotypic variance in the F(2) animals. Related traits were partly under common genetic influence. Our analysis confirms that leucocyte trait variation is associated with multiple chromosomal regions.

Qualitative and quantitative distribution of PCV2 in wild boars and domestic pigs in Germany.

Porcine circovirus 2 (PCV2), the causative agent of postweaning multisystemic wasting syndrome (PMWS), has been detected in North American and European wild boars at prevalences arguing for high circulation rates among populations. Systematic data on the qualitative distribution of PCV2 infections and on PCVD (PCV2 diseases) in wild boars are rare, however, and quantitative data about viral loads are missing. To be able to judge the PCV2/PCVD situation in wild boars, evaluation of the nationwide qualitative and quantitative distribution of PCV2 and PCVD in Germany was the objective of the present study. Wild boar samples were compared with domestic pig samples of the same greater areas, including tonsils, lungs, spleen, Lnn. bronchiales and Lnn. mesenterici of 349 wild boars and 348 domestic pigs. All of the wild boars and 308 of the domestic pigs have been apparently free of PCVD, 40 of the domestic pigs had been rejected from slaughter due to health problems (i.e. wasting). Tissues were examined by pathohistology, immunohistology (IHC), nested PCR (nPCR and quantitative PCR (qPCR). One wild boar (0.3%) and 8.7% of the domestic pigs were classified as PCVD-affected, based on pathohistology and IHC. PCV2 DNA was detected in 63.1% and 45.4% of the wild boars by nPCR and qPCR, respectively, and in 100% and 98.8% of the domestic pigs. PCV2 loads differed significantly between wild boars (average: 10(2.8) PCV2 genomes/microg extracted sample DNA) and domestic pigs (average: 10(4.2) PCV2 genomes/microg of sample DNA). The qualitative detection of PCV2 DNA in tissues of wild boars and domestic pigs was abundant and not of any pathological relevance. The overall load of PCV2 in domestic pigs was relatively high and borderline with respect to PCVD, and there was no difference between apparently healthy pigs and pigs rejected from slaughter in this respect. Most of the wild boars were infected with PCV2 at loads less relevant for PCVD.

Distribution of ORF2 and ORF3 genotypes of Porcine Circovirus Type 2 (PCV-2) in wild boars and domestic pigs in Germany

Porcine circovirus 2 (PCV-2), the essential infectious agent in PCVD (porcine circovirus diseases) circulates at high rates among domestic pig and wild boar populations. Wild boars may be viremic and shed the virus with excretions and secretions, and thus serve as a reservoir for domestic pig PCV-2 infection. We hypothesize that PCV-2 strains circulating in wild boars and in domestic pigs are significantly different and thus, partially independent. To prove this hypothesis, the present study investigated by sequence analysis the distribution of ORF2 and ORF3 genotypes of the PCV-2 genome within wild boars (n=40) and domestic pigs (n=60) from overlapping greater areas of Germany. The genotypes were compared with PCV-2 sequences from the Genbank database. The dominating genotype in domestic pigs was PCV-2b (98.4% of infected pigs), while only 4.8% of them were infected with PCV-2a. The corresponding prevalences of PCV-2a and -2b genotypes in wild boars were 58% and 70%, respectively. When also ORF3 genotypes were taken into account, more than 50% of wild boar PCV-2 genotypes were rare among German and European domestic pigs. In conclusion, these data provide evidence for a certain independence of PCV-2 infections in both species and a low chance for domestic pigs to be infected with PCV-2 of wild boar origin. On the other hand, PCV-2 genotypes specific for domestic pigs are also common in wild boars, although at lower frequencies, suggesting the spread of domestic pig PCV-2 to the wild boar population.

Mapping of quantitative trait loci for clinical-chemical traits in swine.

Clinical-chemical traits are diagnostic parameters essential for characterization of health and disease in veterinary practice. The traits show significant variability and are under genetic control, but little is known about the fundamental genetic architecture of this variability, especially in swine. We have identified QTL for alkaline phosphatase (ALP), lactate (LAC), bilirubin (BIL), creatinine (CRE) and ionized sodium (Na(+)), potassium (K(+)) and calcium (Ca(++)) from the serum of 139 F(2) pigs from a Meishan/Pietrain family before and after challenge with Sarcocystis miescheriana, a protozoan parasite of muscle. After infection, the pigs passed through three stages representing acute disease, subclinical disease and chronic disease. Forty-two QTL influencing clinical-chemical traits during these different stages were identified on 15 chromosomes. Eleven of the QTL were significant on a genome-wide level; 31 QTL were chromosome-wide significant. QTL showed specific health/disease patterns with respect to the baseline values of the traits as well as the values obtained through the different stages of disease. QTL influencing different traits at different times were found primarily on chromosomes 1, 3, 7 and 14. The most prominent QTL for the investigated clinical-chemical traits mapped to SSC3 and 7. Baseline traits of ALP, LAC, BIL, Ca(++) and K(+) were influenced by QTL regions on SSC3, 6, 7, 8 and 13. Single QTL explained up to 21.7% of F(2) phenotypic variance. Our analysis confirms that variation of clinical-chemical traits is associated with multiple chromosomal regions.

Coxiella burnetii plasmid types QpDG and QpH1 are closely related and likely identical.

Strains and isolates of Coxiella burnetii, an obligate intracellular bacterium, carry a single plasmid or a plasmid-homologous sequence integrated into the chromosome. The plasmids QpH1, QpRS, QpDV and the chromosome-integrated plasmid-homologous region have been completely sequenced, whereas no sequence data are available for the QpDG plasmid. In this study, we used total genomic DNA from reference strain C. burnetii Dugway 5J108-111 to demonstrate and characterize the QpDG plasmid by pulsed-field gel electrophoresis (PFGE) and Southern hybridization. Primers derived from regions shared among C. burnetii plasmids were used to construct a physical map of the QpDG plasmid by extra long (XL) PCR. Both approaches, Southern hybridization and XL PCR indicated that QpDG and QpH1 represent a closely related and likely identical plasmid.

Differential identification of Chlamydophila abortus live vaccine strain 1B and C. abortus field isolates by PCR-RFLP.

Comparative genomic analysis of a wild-type strain of the ovine pathogen Chlamydophila abortus and its nitrosoguanidine-induced, temperature-sensitive and virulence-attenuated live vaccine derivative identified point mutations unique to the mutant (Burall et al. [1]). Here, we evaluate the capacity of some of these mutations to either create or eliminate restriction sites using the wild-type strain C. abortus S26/3 as a reference. Three of eight genomic sites with confirmed point mutations (CAB153, CAB636 and CAB648) were retained for analysis as each resulted in the loss of a restriction site in the genome sequence of the vaccine strain. PCR-restriction fragment length polymorphism analysis using restriction enzymes chosen to specifically target the three genomic sites was then applied to a large number of C. abortus field isolates and reference strains. Our results indicate that the three mutations are uniquely present in the vaccine strain, and as such provide easy-to-use markers for the differential identification of the vaccine strain and wild-type isolates.

Mapping of quantitative trait loci affecting behaviour in swine.

Behavioural indices in vertebrates are under genetic control at least to some extent. In spite of significant behavioural problems in farm animals, information on the genetic background of behaviour is sparse. The aim of this study was to map QTL for behavioural indices in swine under healthy conditions and after infection with Sarcocystis miescheriana, as behaviour can be significantly influenced by disease. This well-described parasite model subsequently leads to acute (day 14 p.i.), subclinical (day 28 p.i.) and chronic disease (day 42 p.i.), allowing the study and comparison of the behaviour of pigs under four different states of health or disease. The study was based on a well-described Pietrain/Meishan F(2) family that has recently allowed the detection of QTL for disease resistance. We have mapped six genome-wide significant and 24 chromosome-wide significant QTL for six behavioural indices in swine. Six of these QTL (i.e. 20% of total QTL) showed effects on behavioural traits of the healthy pigs (day 0). Some of them (QTL on SSC11 and 18) lost influence on behavioural activities during disease, while the effects of others (QTL on SSC5, SSC8) partly remained during the whole experiment, although with different effects on the distinct behavioural indices. The disease model has been of high relevance to detect effects of gene loci on behavioural indices. Considering the importance of segregating alleles and environmental conditions that allow the identification of the phenotype, we conclude that there are indeed QTL with interesting effects on behavioural indices in swine.

Multiplex-PCR-based differentiation and characterization of Candida-isolates derived from tortoises (Testudinidae).

Candida isolates (n=23) derived from Testudinidae were investigated by multiplex-polymerase chain reaction (PCR). The isolates comprised 13 Candida (C.) tropicalis, nine C. albicans and one C. parapsilosis. In addition, five reference strains C. albicans (ATCC 10231), C. tropicalis (DSM 4238), C. parapsilosis (DSM 4237), C. glabrata (ATCC 70614) and C. krusei (ATCC 70075) were investigated. PCR revealed easily distinguishable species-specific amplicons of the chs1-gene and resulted in a clear identification in all cases. No discrepancies between conventional identification techniques and the PCR-based system were seen. The described PCR offers a rapid alternative to conventional techniques for the identification of C. albicans, C. glabrata, C. tropicalis, C. parapsilosis and C. krusei.