I. Mikula

Toll-like receptors TLR1, TLR2 and TLR4 gene mutations and natural resistance to Mycobacterium avium subsp. paratuberculosis infection in cattle.

Toll like receptors (TLRs) are a class of pattern recognition receptors belonging to the innate immune system. Mutations in the protein coding region of TLRs are associated with altered responsiveness to pathogen-associated molecular patterns (PAMPs). A search was performed for novel mutations in bovine TLR1, TLR2 and TLR4 genes associated with the Mycobacterium avium subsp. paratuberculosis (MAP) infection. The work was also focused on the assessment of linkage between well known mutations in TLR genes (TLR2: Arg677Trp, Pro681His and Arg753Gln; TLR4: Asp299Gly and Thr399Ile), and the susceptibility of cattle to MAP infection. Detection of MAP infection in cattle population (n=711) was based on IS900 PCR, which revealed 22.50% (n=160) MAP positivity. Known mutations in TLR2 and TLR4 genes were not found in cattle population. A novel mutation Val220Met was associated (Odds ratio, OR-3.459) with increased susceptibility to MAP infection. Toll/interleukin-1 receptor (TIR) domain of TLR2 was screened for the presence of mutations, wherein a novel Ile680Val mutation was linked with MAP infection. In silico analysis of the bovine TLR4 ectodomain (ECD) revealed the polymorphic nature of the central ECD and irregularities in the central LRR motifs. LRR11 of the TLR4 showed five missense mutations possibly linked with the increased susceptibility to MAP infection. The most critical position that may alter the pathogen recognition of TLR molecule was 4th residue downstream to LRR domain. Two such missense mutations in TLR4 (Asp299Asn downstream to LRR11, and Gly389Ser downstream to LRR15) were associated with MAP infection. Briefly, the work describes novel mutations in the bovine TLRs and presents their association with the MAP infection.

Novel mutations in TLR genes cause hyporesponsiveness to Mycobacterium avium subsp. paratuberculosis infection.

BackgroundToll like receptors (TLR) play the central role in the recognition of pathogen associated molecular patterns (PAMPs). Mutations in the TLR1, TLR2 and TLR4 genes may change the ability to recognize PAMPs and cause altered responsiveness to the bacterial pathogens.ResultsThe study presents association between TLR gene mutations and increased susceptibility to Mycobacterium avium subsp. paratuberculosis (MAP) infection. Novel mutations in TLR genes (TLR1- Ser150Gly and Val220Met; TLR2 – Phe670Leu) were statistically correlated with the hindrance in recognition of MAP legends. This correlation was confirmed subsequently by measuring the expression levels of cytokines (IL-4, IL-8, IL-10, IL-12 and IFN-γ) in the mutant and wild type moDCs (mocyte derived dendritic cells) after challenge with MAP cell lysate or LPS. Further in silico analysis of the TLR1 and TLR4 ectodomains (ECD) revealed the polymorphic nature of the central ECD and irregularities in the central LRR (leucine rich repeat) motifs.ConclusionThe most critical positions that may alter the pathogen recognition ability of TLR were: the 9th amino acid position in LRR motif (TLR1–LRR10) and 4th residue downstream to LRR domain (exta-LRR region of TLR4). The study describes novel mutations in the TLRs and presents their association with the MAP infection.

Characterization of ovine TLR7 and TLR8 protein coding regions, detection of mutations and Maedi Visna virus infection.

Toll-like receptors (TLRs) 2, 3, 4, 7, 8 and 9 play a crucial role in the recognition of viral entities and modulation of the innate immune system. This work presents sequence analysis of ovine TLR7 and TLR8 genes, depicts novel mutations and describes frequencies of mutations in Maedi Visna infected and healthy sheep. Totally 48 samples of the breed Tsigai were analyzed for the presence of mutations. Within 20 mutations, 14 were silent whereas 6 were missense. The frequencies of missense mutations in the Maedi Visna infected compared to non-infected sheep were: Lys115Glu (P-0.766, F-test), Asn117 (P-0.380) and Lys818Arg (P-0.739). These three mutations were localized in extra LRR (lucine rich repeat) region of TLR7, while mutation Ile73Leu (P-0.498) was located within LRR2 motif. Both mutations in TLR8, Asn165Lys (P-1.0) and Tyr349His (P-0.700), were present in extra LRR region. The secondary structure analysis of ovine TLR7 and TLR8 revealed conserved LRR motif structure, however with some irregularities compared to cattle and human. Transmembrane domains of TLR7 and TLR8 showed 100% homology between sheep and cattle wherein no mutations were found. In both TLRs TIR domains were highly conserved with occurrence of 4 silent mutations. Mutations in TLR7 and TLR8 may play an important role as predisposition factor for Maedi Visna infection. Considering the sequence homology among sheep, cattle and human genes encoding TLR7 and TLR8, we predict their similar function, localization and downstream signaling.

Toll-like receptor gene polymorphism and its relationship with somatic cell concentration and natural bacterial infections of the mammary gland in sheep.

Possible correlation between Toll-like receptor (TLR)-gene mutations and the susceptibility of the mammary gland to bacterial infections and also the associate breed-dependent aspects of somatic cell concentration (SCC), bacterial infection and TLR-gene mutations in sheep are described. In Polish Lowland Sheep (PLS), milk samples exceeding the level of 500/µL (i.e. 5 × 105 per mL) of SCC were recorded almost twice more frequently than in Polish Heath Sheep (PHS) (40 and 22.3 %, respectively). The frequency of bacterial infections was also found in a similar ratio (20 and 12.7 %, respectively). During detection of the TLR-gene mutation we recorded 2 alleles ofTLR1, 6 alleles ofTLR2 and 10 alleles ofTLR4 genes in PHS sheep, while PLS sheep possessed 2, 4 and 6 alleles, respectively. Statistical analyses revealed a relationship between the specified TLR alleles, SCC and the frequency of incidence of bacterial inflammations of mammary gland. The data may serve as a benchmark for further study of TLR-gene mutation-dependent predisposition of mammary gland defensive cells to recognize the pathogen properly and initiate the immunological response, and may help in identifying one of the markers of natural resistance against sheep mastitis.

The PrP genotype of sheep of the improved Valachian breed.

In a worldwide majority of sheep breeds an excessive susceptibility to scrapie associated with thePrP gene alleles coding for valine (V; at the 136 codon) and glutamine (Q; at the 171 codon) (e.g., VRQ/VRQ, VRQ/ARQ, or ARQ/ARQ) was demonstrated. Particularly thePrPVRQ allele is closely associated with the high-risk development of the disease; thePrPARQ allele can also fulfil this function but under certain limited conditions. Polymorphism in thePrP gene sequences (conclusively related to the increased susceptibility of sheep to scrapie) of improved Valachian sheep from two Slovak regions, Orava and Spiš, was determined. Examination of 735 sheep showed that ARR/ARQ was the most frequent genotype (45.2 %). High-risk genotypes were determined in 32.4 % of sheep (ARQ/ARQ 19.3, ARR/VRQ 9.0, ARR/VRQ 3.5, VRQ/VRQ 0.3, ARR/VRR 0.3). Low-risk genotypes were found in 67.7 % of sheep (ARR/ARQ 45.2, ARR/ARR 10.9, ARR/AHQ 5.7, ARQ/ARQ 4.9, AHQ/AHQ 0.7, ARR/AHR 0.3). Despite the geographically distant flocks of improved Valachian sheep investigated no difference in the occurrence of individual PrP genotypes was observed.

Use of the molecular typing methods to evaluate the control ofListeria monocytogenes contamination in a raw milk and dairy products

Nineteen serogroup 1/2aListeria monocytogenes strains isolated from raw milk, dairy products and salt water in one dairy were analyzed. Pulsed field gel electrophoresis (PFGE) and ribotyping were used to determine whether these strains isolated over a 8-month period are epidemiologically related. The samples of raw milk were contaminated by differentL. monocytogenes clones. The clones isolated from dairy products (with the exception of one sample) and salt water were identical. Comparative genetic analysis of the clones isolated from raw milk, salt water and dairy products revealed the source of contamination and identified theL. monocytogenes strain involved in this process.

Monoclonal antibodies recognising fimbriae F107 (F18) of an oedema disease causing strain of Escherichia coli.

Escherichia coli isolated from experimentally induced oedema disease in pigs was used for the isolation and purification of F107 fimbriae. The reference strain was probed using membrane DNA hybridisation for the presence of fed A gene. F107 fimbriae were purified on FPLC and purity was checked on HPLC and SDS PAGE. A protein with major subunit of 18.9 kDa was used for Mabs preparation. Mabs reacted with 18.9 kDa protein previously classified as a major fimbrial subunit and were able to detect F107 fimbriae in immunoelectron microscopy on the surface of the strains 107/86 and 8872. Other strains used in this study did not express any fimbriae. Western blot analysis and F107 ELISA confirmed, that Mabs react with 18.9 kDa subunit whereas strains passaged many times in laboratory did not express F107 fimbriae.

Ovine scrapie : Priorities and importance

Ovine and caprine scrapie occupies a unique place among animal transmissive spongiform encephalopathies (TSE). It is an object of intensive biomedicinal, ecological and economical studies. Its causative agents are demonstrably associated with the development of TSE in farmed minks, goats and moufflons. Ovine strains of scrapie occurring in North America (particularly in the USA) differ from strains which occur in Europe and were present at the onset of development of TSE in three species of deer living in free nature and in captivity in the USA. The studies dealing with the development of bovine spongiform encephalopathy (BSE) of the English type have indicated justifiably that its origin is associated with one (or more) heretofore unidentified ovine strain. The development of a variant form, the Creutzfeldt-Jacob disease in humans, and transmission of the BSE agent to several families of bovidae, felidae and primates, puts stress on its zoonotic potential. All this leads to the conclusion that domesticated sheep are the decisive reservoir species of animal TSE. They have been infected to an unknown extent with the causative agent of BSE probably through contaminated meat-bone meal. The occurrence of natural ovine prion isolates with properties similar to those of the BSE agent requires that scrapie should be included in the surveillance of human and animal TSE. At present, scrapie is a noticeable disease also in other thanEuropean Communities Member States. It is on the list B of theInternational Epizootics Office. Many countries have initiated control of ovine scrapie. It should therefore become a topical question also in Central and Eastern European countries. Elimination or even eradication of ovine scrapie (or its causative agents) from populations of small and large domestic ruminants is the prerequisite for prevention of penetration of ovine pathogenic prions into the human feed chain. Moreover, it should be ensured that these species will be able to produce foods of a new type (immunotrition and similar) or proteins with therapeutic effects in the near future. Our study established that the PrP genotype of Valachian rams, the Slovak autochthonous breed, contains also VRQ and ARQ alleles encoding the susceptibility to scrapie. Their selection is part of the improvement of Slovak Valachian sheep towards resistance to scrapie.