Rastislav Mucha

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.

OspA-CD40 dyad: ligand-receptor interaction in the translocation of neuroinvasive Borrelia across the blood-brain barrier

Lyme borreliosis is the most widespread vector-borne disease in temperate zones of Europe and North America. Although the infection is treatable, the symptoms are often overlooked resulting in infection of the neuronal system. In this work we uncover the underlying molecular mechanism of borrelial translocation across the blood-brain barrier (BBB). We demonstrate that neuroinvasive strain of Borrelia readily crosses monolayer of brain-microvascular endothelial cells (BMECs) in vitro and BBB in vivo. Using protein-protein interaction assays we found that CD40 of BMECs and OspA of Borrelia are the primary molecules in transient tethering of Borrelia to endothelium. OspA of neuroinvasive Borrelia, but not of non-neuroinvasive strain, binds CD40. Furthermore, only the neuroinvasive Borrelia and its recombinant OspA activated CD40-dependent pathway in BMECs and induced expression of integrins essential for stationary adhesion. Demonstration of the CD40-ligand interactions may provide a new possible perspective on molecular mechanisms of borrelial BBB translocation process.

Variable regions in the sushi domains 6–7 and 19–20 of factor H in animals and human lead to change in the affinity to factor H binding protein of Borrelia☆

Borrelia binds hosts complement regulatory factor H (fH) to evade complement attack. However, binding affinities between fH-binding-proteins (FHBPs) of Borrelia and fH from various hosts are disparate. Experiments performed to unfold the underlying molecular basis of this disparity revealed that recombinant BbCRASP-1 (major FHBP of Borrelia burgdorferi) neither interacted with sushi 6-7, nor with sushi 19-20 domains of fH in cattle and pig, however, showed binding affinity to both sushi domains of human fH, sushi 6-7 of mouse and sushi 19-20 of sheep. Further, peptide-spot assay revealed three major binding sites (sushi 6:(335-346), sushi 7:(399-410) and sushi 20:(1205-1227)) in human fH that can form BbCRASP-1:fH interface, while (337)HENMR(341) residues in sushi 6 are crucial for rigid BbCRASP-1:fH complex formation. Amino acid stretches DTIEFTCRYGYRPRTALHTFRTT in ovine sushi 19-20 and SAYWEKVYVQGQ in mouse sushi 7 were important sites for fH:BbCRASP-1 interaction. Comparative analysis of the amino acid sequences of sushi 6 of cattle, pig and human revealed that bovine and porcine fH lack methionine and arginine in HENMR pocket, that may impede formation of fH:BbCRASP-1 interface. Increasing numbers of FHBPs from animal and human pathogens are being discovered, thus results presented here can be important benchmark for study of other FHBPs:FH interactions.

First in vitro isolation of Neospora caninum from a naturally infected adult dairy cow in Slovakia

The impact of in vitro isolation and molecular characterisation of Neospora caninum as well as sequence analyses was studied. The brain homogenate of a naturally Neospora-infected dairy cow (positive in ELISA and Western blot) was intraperitoneally inoculated into Mongolian gerbils (Meriones unguiculatus). The brain of gerbils on day 60 post-inoculation was homogenized, and, after trypsin-digestion, cultured on Vero cells. Neospora-like tachyzoites were first observed after 77 days of cultivation. The parasite was confirmed by polymerase chain reaction (PCR) using Neospora-specific primers Np21 and Np6. The PCR product of the first Slovak isolate (NC-SKB1) was subsequently sequenced and published in GenBank under accession number GU300774. Sequencing and BLAST search identified the isolate as N. caninum.

Development of simple and rapid elution methods for proteins from various affinity beads for their direct MALDI-TOF downstream application.

Commercially available desalting techniques, necessary for downstream MALDI-TOF analysis of proteins, are often costly or time consuming for large-scale analysis. Here, we present techniques to elute proteins from various affinity resins, free from salt and ready for MALDI mass spectrometry. We showed that 0.1% TFA in 50% acetonitrile or 40% ethanol can be used as salt-free eluents for His-tagged proteins from variety of polyhistidine-affinity resins, while washing of resin beads twice with double-distilled water prior to the elution effectively desalted and recovered wide-range-molecular size proteins than commercially available desalting devices. Modified desalting and elution techniques were also applied for Flag- and Myc-tag affinity resins. The technique was further applied in co-precipitation assay, where the maximum recovery of wide-range molecular size proteins is crucial. Further, results showed that simple washing of the beads with double distilled water followed by elution with acetonitrile effectively desalted and recovered 150 kDa factor H protein of the sheep and its binding partner ~30 kDa BbCRASP-1 in co-precipitation assay. In summary, simple modifications in the desalting and elution strategy save time, labor and cost of the protein preparation for MALDI mass spectrometry; and large-scale protein purifications or co-precipitations can be performed with ease.

Host-dependent differential expression of factor H binding proteins, their affinity to factor H and complement evasion by Lyme and relapsing fever borreliae

Binding of complement factor H is crucial for the resistance of Borrelia to complement-mediated lysis. This study was aimed to assess the correlation between the expression of fH binding proteins (FHBPs) during the early phase of infection (48 h after the entry of Borrelia into the blood circulation) and complement resistance of the Borrelia genus. As expected, B. afzelii, B. burgdorferi sensu stricto and B. garinii (Serotype 4, PBi) showed resistance to complement mediated lysis when incubated with human and dog complement, which coincided with the significantly higher expression (P<0.05) of the FHBPs. Similarly, B. coriaceae showed resistance to cattle complement. In non-reservoir hosts borreliae failed to induce expression of FHBPs within 48 h of complement challenge, and did not survive. It is important to note that not only the expression of FHBP but also their binding to fH is required for borrelial resistance to the complement. fH binding may depend on the coiled-coil (CC) motifs observed in the FHBPs, especially at the C terminus. A loss of the C-terminal CC motif in BgCRASP-1 of SKT-1 strain was found in in-silico CC prediction, and may be coupled with SKT-1s inability to bind factor H and evade complement-mediated attack. In contrast, the C-terminal CC motif was observed (P - 1.0) in BgCRASP-1 of PBi that may contributed to its factor H binding and human complement resistance.

Adhesion of Francisella to endothelial cells is also mediated by OmpA:ICAM-1 interaction

Tularemia (rabbit fever) is a serious infectious disease caused by Francisella tularensis infecting human and farm animals including cattle, rabbits, horses and sheep. The disease is economically important in rabbit industry. It is already known that Francisella readily adhere to various cells like macrophages, epithelial cells, endothelial cells, etc. to evoke self internalization or crossing of various cell barriers [1–3]. There is still a lack of data that reveals interactions between pathogen ligands and host receptors expressed on the endothelial cells, which are crucial in initial steps of infection. In our previous study we showed that ICAM-1 is the most probable adhesive molecule for Francisella on endothelial cells (EC). The objective of this study was to identify protein candidate(s) from Francisella interacting with ICAM-1.

Rapid protein production pipeline in advanced inducible Leishmania tarentolae expression system

Leishmania tarentolae is a trypanosomatid protozoan host isolated from Moorish gecko Tarentola mauritanica [1], non-pathogenic to mammals, and can be used as a protein expression system. Proteins expressed by Leishmania tarentolae possess post-translation modifications close to mammalian-type, such as glycosylation, phosphorylation or prenylation. Moreover, these protozoa need similar handling as bacterial expression systems.

Identification of new phosphorylation sites of CD23 in B-cells of patients with chronic lymphocytic leukemia

B-cell chronic lymphocytic leukemia (B-CLL) is the most common lymphoproliferative disorder in adults. Patients with B-CLL strongly express the CD23 - C type of lectin (low affinity IgE receptor, Fc epsilon RII), which is linked to B cell activation and proliferation. Phosphorylation in lymphocytes is tightly associated with regulation of protein activities, functional regulation and cell signaling, and may thus affect initiation and/or progression of the disease. Here we report changes in the phosphorylation of CD23 on threonine (pThr314) and two serine residues (pSer254, pSer265) in B lymphocytes of B-CLL patients, using a flow cytometry approach. The majority of tested patients with active forms of B-CLL presented a notable overexpression of CD23 along with pThr314, pSer254, and pSer265 CD23 phosphorylation positivity. Moreover, we have experimentally stimulated the CD23 phosphorylations in a subset of peripheral blood lymphocytes of healthy controls by phorbol-12-myristate-13-acetate treatment. This affects the activation of competent phosphorylation mediating kinases, resulting in the enhanced phosphorylation pattern. Together, these data confirm that CD23 protein is phosphorylated in B cells of B-CLL patients, report the identification of new CD23 phosphorylation sites, and suggest a possible role(s) of such phosphorylations in the activation of CD23 during the process of lymphocytic activation in B-CLL.