Dezső Virók

Interactions of Pathological Hallmark Proteins TUBULIN POLYMERIZATION PROMOTING PROTEIN/p25, β-AMYLOID, AND α-SYNUCLEIN

Background: The disordered TPPP/p25 is a hallmark of synucleinopathies. Results: Tight binding of TPPP/p25 with β-amyloid results in the formation of massive aggregates both in vitro and in vivo. Conclusion: The presence of intracellular pathological-like TPPP/p25-β-amyloid aggregates elucidates the partial co-localization of β-amyloid and TPPP/p25 in Lewy body dementia with Alzheimer disease. Significance: This new type of aggregation may form bridge to conjoin synucleopathies with other neuropathologies. The disordered tubulin polymerization promoting protein (TPPP/p25) was found to be co-enriched in neuronal and glial inclusions with α-synuclein in Parkinson disease and multiple system atrophy, respectively; however, co-occurrence of α-synuclein with β-amyloid (Aβ) in human brain inclusions has been recently reported, suggesting the existence of mixed type pathologies that could result in obstacles in the correct diagnosis and treatment. Here we identified TPPP/p25 as an interacting partner of the soluble Aβ oligomers as major risk factors for Alzheimer disease using ProtoArray human protein microarray. The interactions of oligomeric Aβ with proteins involved in the etiology of neurological disorders were characterized by ELISA, surface plasmon resonance, pelleting experiments, and tubulin polymerization assay. We showed that the Aβ42 tightly bound to TPPP/p25 (Kd = 85 nm) and caused aberrant protein aggregation by inhibiting the physiologically relevant TPPP/p25-derived microtubule assembly. The pair-wise interactions of Aβ42, α-synuclein, and tubulin were found to be relatively weak; however, these three components formed soluble ternary complex exclusively in the absence of TPPP/p25. The aggregation-facilitating activity of TPPP/p25 and its interaction with Aβ was monitored by electron microscopy with purified proteins by pelleting experiments with cell-free extracts as well as by confocal microscopy with CHO cells expressing TPPP/p25 or amyloid. The finding that the interaction of TPPP/p25 with Aβ can produce pathological-like aggregates is tightly coupled with unusual pathology of the Alzheimer disease revealed previously; that is, partial co-localization of Aβ and TPPP/p25 in the case of diffuse Lewy body disease with Alzheimer disease.

Optimization of DNA immunization against human cytomegalovirus.

The immune responses of mice injected with plasmids VR-gB and VR-gB Delta tm expressing the full-length membrane-anchored, or secreted forms of human cytomegalovirus (HCMV)-glycoprotein B (gB), respectively, and VR-pp65 expressing the HCMV-phosphoprotein 65 (pp65) were analyzed. Pretreatment of mice with the local anesthetic bupivacaine did not enhance antibody production, and IFN-alpha co-expressed with the immunizing plasmids induced a moderate increase in the antibody response. However, antibody response was higher in mice inoculated at three sites in the musculus quadriceps than in mice inoculated at one site with the same dose and in the same muscle. pVR-gB Delta tm induced significantly higher antibody titers than the construct expressing the membrane-anchored form of gB, and priming with pVR-gB Delta tm followed by boosting with the gB subunit resulted in high-titer antibody responses. Immunization with VR-pp65 induced dose-dependent CTL responses in about 50% of the mice at a dose of 50 microg. Co-expression of IFN-alpha did not affect the number of responding mice. These findings might be important for optimization of humoral and cellular immune responses to HCMV after DNA vaccination.

Highly Immunoreactive IgG Antibodies Directed against a Set of Twenty Human Proteins in the Sera of Patients with Amyotrophic Lateral Sclerosis Identified by Protein Array

Amyotrophic lateral sclerosis (ALS), the most common adult-onset motor neuron disorder, is characterized by the progressive and selective loss of upper and lower motor neurons. Diagnosis of this disorder is based on clinical assessment, and the average survival time is less than 3 years. Injections of IgG from ALS patients into mice are known to specifically mark motor neurons. Moreover, IgG has been found in upper and lower motor neurons in ALS patients. These results led us to perform a case-control study using human protein microarrays to identify the antibody profiles of serum samples from 20 ALS patients and 20 healthy controls. We demonstrated high levels of 20 IgG antibodies that distinguished the patients from the controls. These findings suggest that a panel of antibodies may serve as a potential diagnostic biomarker for ALS.

Application of DNA Chip Scanning Technology for Automatic Detection of Chlamydia trachomatis and Chlamydia pneumoniae Inclusions

ABSTRACT Chlamydiae are obligate intracellular bacteria that propagate in the inclusion, a specific niche inside the host cell. The standard method for counting chlamydiae is immunofluorescent staining and manual counting of chlamydial inclusions. High- or medium-throughput estimation of the reduction in chlamydial inclusions should be the basis of testing antichlamydial compounds and other drugs that positively or negatively influence chlamydial growth, yet low-throughput manual counting is the common approach. To overcome the time-consuming and subjective manual counting, we developed an automatic inclusion-counting system based on a commercially available DNA chip scanner. Fluorescently labeled inclusions are detected by the scanner, and the image is processed by ChlamyCount, a custom plug-in of the ImageJ software environment. ChlamyCount was able to measure the inclusion counts over a 1-log-unit dynamic range with a high correlation to the theoretical counts. ChlamyCount was capable of accurately determining the MICs of the novel antimicrobial compound PCC00213 and the already known antichlamydial antibiotics moxifloxacin and tetracycline. ChlamyCount was also able to measure the chlamydial growth-altering effect of drugs that influence host-bacterium interaction, such as gamma interferon, DEAE-dextran, and cycloheximide. ChlamyCount is an easily adaptable system for testing antichlamydial antimicrobials and other compounds that influence Chlamydia-host interactions.

High dynamic range detection of Chlamydia trachomatis growth by direct quantitative PCR of the infected cells

Chlamydiae are obligate intracellular bacteria developing in an intracytoplasmic niche, the inclusion. Chlamydia growth measurement by inclusion counting is a key task in the development of novel antichlamydial antibiotics and in vaccine studies. Most of the current counting methods rely on the immunofluorescent staining of the inclusions and either manual or automatic microscopy detection and enumeration. The manual method is highly labor intensive, while the automatic methods are either medium-throughput or require automatic microscopy. The sensitive and specific PCR technology could be an effective method for growth related chlamydial DNA detection; however the currently described PCR approaches have a major limitation, the requirement of purification of DNA or RNA from the infected cells. This limitation makes this approach unfeasible for high-throughput screenings. To overcome this, we developed a quantitative PCR (qPCR) method for the detection of Chlamydia trachomatis DNA directly from the infected HeLa cells. With our method we were able to detect the bacterial growth in a 4 log scale (multiplicity of infection (MOI): 64 to 0.0039), with high correlation between the biological and technical replicates. As a further proof of the method, we applied the direct qPCR for antibiotic minimum inhibitory concentration (MIC) measurements. The measured MICs of moxifloxacin, tetracycline, clarithromycin and compound PCC00213 were 0.031 μg/ml, 0.031 μg/ml, 0.0039 μg/ml and 6.2 μg/ml respectively, identical or close to the already published MIC values. Our direct qPCR method for chlamydial growth and antibiotic MIC determination is less time-consuming, more objective and more sensitive than the currently applied manual or automatic fluorescent microscopy- based methods.

Chryseobacterium gleum – a novel bacterium species detected in neonatal respiratory tract infections

Abstract We report three patients with early neonatal infections. All patients had respiratory tract involvement with increased inflammation markers. Chryseobacterium gleum was cultured from the stomach content aspirated on arrival at the Neonatal intensive Care Unit and it was identified with the help of a Microflex™ MALDI Biotyper mass spectrometer (Bruker-Daltonik, Fremont, CA). Recovery could be achieved with ciprofloxacin treatment. We consider our cases a possible new clinical presentation of a rare human pathogen.

Chlamydophila pneumoniae re-infection triggers the production of IL-17A and IL-17E, important regulators of airway inflammation.

ObjectiveInvestigation of the effects of interleukin (IL)-17 cytokines in Chlamydophila pneumoniae-infected mice.MethodsMice were infected with C. pneumoniae once or three times and the expression of IL-17 cytokines was followed by RT qPCR from day 1 to day 28 after infection and re-infection. After the treatment of mice with anti-IL-17A, ELISA was used to detect the differences in cytokine and chemokine production. The number and phenotype of the IL-17A-producing cells were determined by ELISPOT.ResultsChlamydophila pneumoniae induced IL-17A and IL-17F from day 2 after infection, and their levels remained elevated on day 28. The expression of IL-17C, IL-17D and IL-17E mRNA did not change significantly in response to a single infection. The in vivo neutralization of IL-17A resulted in a higher C. pneumoniae burden in the mouse lungs, a decreased cell influx, and diminished chemokine levels. The phenotype of IL-17A-producing cells was CD4+. The re-infection of mice led to an increased expression of IL-17E mRNA.ConclusionThese results facilitate an understanding of the early inflammatory response after C. pneumoniae infection and suggest that C. pneumoniae re-infection induces the production of a high amount of IL-17E, which has an important role in the pathogenesis of allergic pulmonary diseases.

Protection promoted by pGP3 or pGP4 against Chlamydia muridarum is mediated by CD4+ cells in C57BL/6N mice

Urogenital tract infection with Chlamydia trachomatis is a leading cause of sexually transmitted infections. There is currently no commercially available vaccine against C. trachomatis. The highly conserved plasmid of chlamydiae has been considered to be a virulence factor and the plasmid proteins have important roles in the Chlamydia-specific immune response. This study was designed to evaluate the efficacy of vaccination with plasmid proteins in the prevention of C. muridarum lung infection in a mouse model. C57BL/6N mice were immunised 3 times subcutaneously with recombinant pGP3 or pGP4 and infected with C. muridarum. Immunisation of the mice with recombinant pGP3 or pGP4 protein caused a significantly lower chlamydial burden in the lungs of the infected mice; the lower IFN-γ level indicated a reduced extent of inflammation. In vitro or in vivo neutralisation of C. muridarum with sera obtained from immunised mice did not reduce the number of viable C. muridarum in the lungs of mice. However, adoptive transfer of the CD4(+) spleen cells isolated from the immunised mice resulted in a significantly reduced bacterial burden. Our results indicate that it is not the pGP3- and pGP4-specific antibodies, but the CD4(+) cells that are responsible for the protective effect of the immune response to plasmid proteins.

Impact of antiseptics on Chlamydia trachomatis growth.

Bacterial vaginosis is a frequent dysbiosis, where the normal lactobacillus‐dominated flora is replaced by an anaerob/aerob polymicrobial flora. Bacterial vaginosis increases the risk of acquiring sexually transmitted infections (STI) including the most frequent Chlamydia trachomatis infections. Intravaginal antiseptics are part of the bacterial vaginosis treatment, and ideally they should also inhibit the bacterial vaginosis‐related STI. Therefore, we tested the antichlamydial activity of four antiseptics: iodine aqueous solution, povidone‐iodine, chlorhexidine and borax. First, we measured the impact of antiseptics on the viability of the HeLa cervical epithelial cells, and calculated the maximum nontoxic concentrations. Next, we infected the cells with C. trachomatis preincubated for 1 h with the particular antiseptic. The chlamydial growth was measured by direct quantitative PCR (qPCR) of the infected cells. The minimal inhibitory concentrations (MIC) of chlorhexidine and povidone‐iodine were 3·91 and 97 μg ml−1 respectively; however, the MIC of chlorhexidine was close to its maximum nontoxic concentration. The iodine aqueous solution and the borax showed no antichlamydial activity. Our in vitro studies showed that chlorhexidine and particularly povidone‐iodine are potentially able to limit the bacterial vaginosis‐related C. trachomatis infection.

Expression of Chlamydia muridarum plasmid genes and immunogenicity of pGP3 and pGP4 in different mouse strains

Chlamydia muridarum carries a cryptic plasmid (pMoPn) of 7.5kb, which encodes seven genes. Our aims were to describe the transcriptional pattern of the pMoPn genes in C. muridarum-infected mice and to evaluate the host immune responses against pGP3 and pGP4 proteins. BALB/c and C57BL/6N female mice were inoculated intranasally with C. muridarum and sacrificed at different time points, and the total RNA was extracted from the lung suspensions to determine the levels of expression of the different plasmid genes by RT qPCR. The supernatants of the lungs were subjected to the quantitation of recoverable C. muridarum. TCA04 and TCA05, which encode pGP3 and pGP4, respectively, were amplified by PCR and cloned into the pET vector. The proteins were overexpressed in E. coli HB101 and purified. Selected groups of BALB/c and C57BL/6N mice were infected with C. muridarum 1-3 times. The humoral immune responses in the sera of the mice to the proteins encoded by TCA04 and TCA05 were tested by Western blotting, and the cellular immune responses were assessed in lymphocyte proliferation assays. The proteins recognized by the mouse sera were further analysed by a LC/MSMS technique. The kinetics of C. muridarum growth were similar in the mouse strains used, but the pathogen burden was higher in the BALB/c mice in the late phase of infection. All the plasmid genes in the BALB/c mice showed an increased level of expression on day 7, whereas the expression of the same genes did not change on day 7 in the C57BL/6N mice. The levels of expression of the plasmid genes were higher in the C57BL/6N mice at later time points. In Western blot assays, the sera of the singly infected C57BL/6N mice reacted with the monomeric form of pGP3, whereas the sera of the singly infected BALB/c mice reacted with the trimeric form of pGP3. The sera of the multiply infected C57BL/6N mice also recognized pGP4. Similarly to the humoral immune response, cellular immune responses to pGP3 and pGP4 were detected in the C. muridarum-infected C57BL/6N mice, but the spleen cells of BALB/c mice responded with proliferation only to the pGP3 protein. These results suggest that the proteins encoded by pMoPn genes may modulate the host immune response during C. muridarum infection, and that the evolved immune response against plasmid proteins, similarly to that against other chlamydial proteins, depends on the genetic background of the host.