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The respiratory epithelium acts as both, a barrier of the respiratory tract to Nipah virus (NiV) entry and at the same time as a significant determinant of virus shedding. Both, for humans and pigs, replication in the respiratory tract epithelia is considered a major factor in transmission to other hosts. To understand why the virus constitutes a high-risk pathogen for livestock and humans, knowledge about
viral replication and host responses in relevant cells and tissues is crucial. Most in vitro studies, however, have been performed in conventional cell lines or non-differentiated lung cells. Only a few examples exist where Henipavirus infections have been investigated in fully-differentiated lung
epithelial cell models.
Thus, one aim of this thesis was to investigate infection, replication, spread and host protein dynamics of NiV in primary bronchial epithelial cells (BEC) cultivated at the air-liquid-interphase (ALI). By
immunofluorescence imaging, the NiV infection dynamics in BEC-ALI cultures were monitored over a 12 day time course, in order to provide detailed information about the infection process in the
respiratory epithelium of pigs and ferrets. Compared to undifferentiated primary BEC, the specific infectivity of NiV in BEC-ALI cultures was low. Infections remained focal and complete infection of the
cultures was not observed, even at 12 dpi. Analysis of viral titers and viral mRNA indicated a limited
virion release from the infected ALI-cultures while most of the newly synthesized NiV-RNA remained
cell associated. Immunofluorescence analysis of cross sections from infected ALI-cultures revealed
large infected areas that exhibited a strong cytopathic effect (CPE). Disruption of the epithelium
resulted in apical release of virus antigen-positive cell detritus while ciliated areas and basal cells were
less affected. From these data it was concluded, that NiV transmission could be supported by
exhalation of cell debris associated NiV and thus may contribute to rapid spread of infection in swine
populations.
A second aim was to explore the dynamics of host responses to NiV infection in differentiated BEC-ALI
culture and to assess whether this differs to conventional cell line data available from literature. Even
though strong CPE appeared in later phases of NiV infection, at least the porcine PBEC-ALI cultures
remained robust enough to allow protein sampling over 12 days infection course. Subsequent MS-based proteomics enabled unprecedent insight in complex cell culture response upon NiV infection.
Previous reports indicated a lack of efficient interferon type I induction in non-differentiated pig or
human BEC which were considered a prerequisite for efficient replication in the respiratory epithelium
and virusspread. In contrast to non-differentiated pig BEC (PBEC), in PBEC-ALI cultures multiple factors
involved in interferon responses were upregulated upon NiV infection. Thereby it was demonstrated
that NiV infection induced a robust innate immune response upon infection with elevated components of antigen processing and presentation resulting in the conversion from the constitutive proteasome to the immunoproteasome. In contrast to previous reports about NiV-infected non-differentiated
PBEC or endothelial cells, incomplete immunoproteasome formation and limitations in interferon
response could be excluded. Thus, a model is proposed in which NiV infection and spread in differentiated PBECs is slowed by potent innate immune responses to the virus infection. Overall, the
findings highlight the important role of the respiratory epithelium not only as a physical barrier to virus
infections but also indicate itsrole as a primary site of adaptive immune induction through NiV induced
antigen processing and MHC I presentation.
Finally, to allow functional studies of Henipaviruses at the BSL-2 biosafety level a recombinant CedPV
was generated and rescued. An imaging based screening and quantitative analysis pipeline was established to investigate the role of cellular factors and to screen for potential virus and host gene
directed inhibitory factors. Accordingly, different host and viral genes were targeted with a siRNA-pool
either targeting virus or selected cellular mRNAs followed by the infection with the CedPV and the
quantification of infected cells. With proof of concept of the siRNA screening pipeline, the recombinant
CedPV clone was used as a backbone to insert variousfluorescence reporter genesin order to optimize
the analysis workflow by allowing direct virus quantification in live, unstained samples. Consequently,
this thesis provides a valuable proof for future approaches related to the function of virus proteins,
influence of host-factors and virusreplication and Henipavirus-inhibitorscreens at low biosafety levels.
Im Rahmen dieser Dissertation wurden 100 kieferorthopädische Bögen von Patienten gesammelt, die sich in der regulären orthodontischen Behandlung auf der Poliklinik für Kieferorthopädie befanden. Ziel war es, prospektiv die Verteilung der Hauptelemente (Ti, Ni, Si, Cr, Al, Mn, Fe) in kieferorthopädischen Bögen während der Therapie innerhalb dieser klinischen Kohorte zu analysieren, da speichelsimultane Lösungen mit den intraoralen Bedingungen nicht kongruent sind (Eliades 2002). Weiterhin wurden die Zusammenhänge zwischen Verteilungsveränderungen, Tragedauer, zusätzlich verwendeter Apparaturen, unterschiedlichen Bracketsystemen, weiteren intraoral befindlichen Apparaturen, sowie Zahnfüllungen und der Mundhygiene untersucht, da diese Parameter die Korrosion zunehmend beeinflussen können (Eliades 2005). Ob die orthodontischen Legierungen diesen, an sie gestellten Anforderungen standhalten können, galt es herauszufinden. (Bourauel 1998) Es wurden Daten von 50 Stahl- und 50 Nickel-Titan-Bögen (Forestadent Bernhardt Förster GmbH, Pforzheim) von 100 Patienten, die sich in kieferorthopädischer Behandlung in der Poliklinik für Kieferorthopädie der Universitätsmedizin Greifswald befanden, prospektiv ausgewertet. Zusätzlich zur Liegedauer der Bögen, wurden Anzahl und Art der Füllungen, weitere Apparaturen, verschiedene Bracketsysteme und der Plaqueindex erfasst. Diese Parameter wurden der oberflächennahen Verteilungsveränderung von Nickel, Chrom und Titan mittels einer energiedispersiven Röntgenpektroskopie (EDX) der Bögen gegenübergestellt. Die Oberfläche wurde im REM subjektiv beurteilt. Normalverteilte Daten wurden mittels des t-Test für verbundene Stichproben und nicht normalverteilte Werte mit dem u-Test untersucht (p ≤ 0,05). Die mittlere Liegedauer der Bögen lag bei 62 Tagen. 70% der Bögen hatten keinen Füllungskontakt. Jeder Patient hatte im Mittel 3,2 Bänder und 48% der Kinder wurden mit selbstlegierenden Brackets behandelt. Es wurden 22 TPA's und 5 LLA's verwendet. Die EDX-Analyse der oberflächennahen Verteilung der Hauptelemente bei gebrauchten Bögen ergab im Vergleich vom Ausgangs- zum Endzustand keine signifikante Unterschiede in der Stoffzusammensetzung der Einzelelemente. Im Verhältnis zur Zeit zeigte sowohl bei Stahl- als auch bei Nickel-Titan-Legierungen kein Element signifikante Unterschiede in der quantitativen Zusammensetzung. Die Mundhygiene scheint ebenfalls keinen signifikanten Einfluss auf die Veränderungen kieferorthopädischer Legierungen zu haben. Erhöhte Plaqueindices die durch eine mangelnde Mundhygiene während der kieferorthopädischen Therapie entstehen und eine verlängerte Tragedauer der orthodontischen Bögen erhöhen demnach das Risiko der Ionenabgabe aus diesen Legierungen nicht signifikant. Weiterhin konnten auch andere intraoral befindliche Apparaturen, wie Transpalatinalbögen etc. keinen signifikanten Einfluss auf die elementare Zusammensetzung bei Stahl- und Nickel-Titan-Legierungen zeigen. Auch verschiedene Brackettypen zeigten keine signifikanten Veränderungen bei der Zusammensetzung kieferorthopädischer Bögen. Sowohl Kunststoff- als auch Amalgamfüllungen scheinen keinen signifikanten Einfluss auf das Abnutzungsverhalten von Stahl- und Nickel-Titan-Drähten zu haben. Dennoch konnten visuelle Oberflächenveränderungen in vielen Proben beobachtet werden.
Background
The approval of ethanol by the Biocidal Products Regulation has been under evaluation since 2007. This follows concern over alcohol uptake from ethanol-based hand rubs (EBHR). If ethanol is classified as carcinogenic, mutagenic, or reprotoxic by the European Chemicals Agency (ECHA), then this would affect infection prevention and control practices.
Aim
A review was performed to prove that ethanol is toxicological uncritical and indispensable for hand antisepsis because of its unique activity against non-enveloped viruses and thus the resulting lack of alternatives. Therefore, the following main points are analyzed: The effectiveness of ethanol in hand hygiene, the evidence of ethanol at blood/tissue levels through hand hygiene in healthcare, and the evidence of toxicity of different blood/tissue ethanol levels and the non-comparability with alcoholic consumption and industrial exposure.
Results
EBHR are essential for preventing infections caused by non-enveloped viruses, especially in healthcare, nursing homes, food industry and other areas. Propanols are effective against enveloped viruses as opposed to non-enveloped viruses but there are no other alternatives for virucidal hand antisepsis. Long-term ingestion of ethanol in the form of alcoholic beverages can cause tumours. However, lifetime exposure to ethanol from occupational exposure < 500 ppm does not significantly contribute to the cancer risk. Mutagenic effects were observed only at doses within the toxic range in animal studies. While reprotoxicity is linked with abuse of alcoholic beverages, there is no epidemiological evidence for this from EBHR use in healthcare facilities or from products containing ethanol in non-healthcare settings.
Conclusion
The body of evidence shows EBHRs have strong efficacy in killing non-enveloped viruses, whereas 1-propanol and 2-propanol do not kill non-enveloped viruses, that pose significant risk of infection. Ethanol absorbed through the skin during hand hygiene is similar to consumption of beverages with hidden ethanol content (< 0.5% v/v), such as apple juice or kefir. There is no risk of carcinogenicity, mutagenicity or reprotoxicity from repeated use of EBHR. Hence, the WHO Task Force strongly recommend retaining ethanol as an essential constituent in hand rubs for healthcare.
Background and Purpose: In the setting of acute ischemic stroke, increased blood-brain barrier permeability (BBBP) as a sign of injury is believed to be associated with increased risk of poor outcome. Pre-clinical studies show that selected serum biomarkers including C-reactive protein (CRP), interleukin-6 (IL-6), tumor necrosis factor-alpha (TNFα), matrix metallopeptidases (MMP), and vascular endothelial growth factors (VEGFs) may play a role in BBBP post-stroke. In the subacute phase of stroke, increased BBBP may also be caused by regenerative mechanisms such as vascular remodeling and therefore may improve functional recovery. Our aim was to investigate the evolution of BBBP in ischemic stroke using contrast-enhanced (CE) magnetic resonance imaging (MRI) and to analyze potential associations with blood-derived biomarkers as well as functional recovery in subacute ischemic stroke patients.
Methods: This is an exploratory analysis of subacute ischemic stroke patients enrolled in the BAPTISe study nested within the randomized controlled PHYS-STROKE trial (interventions: 4 weeks of aerobic fitness training vs. relaxation). Patients with at least one CE-MRI before (v1) or after (v2) the intervention were eligible for this analysis. The prevalence of increased BBBP was visually assessed on T1-weighted MR-images based on extent of contrast-agent enhancement within the ischemic lesion. The intensity of increased BBBP was assessed semi-quantitatively by normalizing the mean voxel intensity within the region of interest (ROI) to the contralateral hemisphere (“normalized CE-ROI”). Selected serum biomarkers (high-sensitive CRP, IL-6, TNF-α, MMP-9, and VEGF) at v1 (before intervention) were analyzed as continuous and dichotomized variables defined by laboratory cut-off levels. Functional outcome was assessed at 6 months after stroke using the modified Rankin Scale (mRS).
Results: Ninety-three patients with a median baseline NIHSS of 9 [IQR 6–12] were included into the analysis. The median time to v1 MRI was 30 days [IQR 18–37], and the median lesion volume on v1 MRI was 4 ml [IQR 1.2–23.4]. Seventy patients (80%) had increased BBBP visible on v1 MRI. After the trial intervention, increased BBBP was still detectable in 52 patients (74%) on v2 MRI. The median time to v2 MRI was 56 days [IQR 46–67]. The presence of increased BBBP on v1 MRI was associated with larger lesion volumes and more severe strokes. Aerobic fitness training did not influence the increase of BBBP evaluated at v2. In linear mixed models, the time from stroke onset to MRI was inversely associated with normalized CE-ROI (coefficient −0.002, Standard Error 0.007, p < 0.01). Selected serum biomarkers were not associated with the presence or evolution of increased BBBP. Multivariable regression analysis did not identify the occurrence or evolution of increased BBBP as an independent predictor of favorable functional outcome post-stroke.
Conclusion: In patients with moderate-to-severe subacute stroke, three out of four patients demonstrated increased BBB permeability, which decreased over time. The presence of increased BBBP was associated with larger lesion volumes and more severe strokes. We could not detect an association between selected serum biomarkers of inflammation and an increased BBBP in this cohort. No clear association with favorable functional outcome was observed.
Trial registration: NCT01954797.
Unlike the native surface of the implant material (Ti6Al4V), oxidation with H2O2 leads to increased binding of the effective antimicrobial agent poly(hexamethylene) biguanide [PHMB]. However, treating with NaOH instead results in an even higher PHMB mass coverage. After oxidation with H2O2, strong differences in the PHMB adsorption capability between polished and corundum-blasted surfaces appear, indicating a roughness dependence. After NaOH treatment, no such effect was observed. The wetting properties of specimens treated with either H2O2 or NaOH prior to PHMB exposure clearly varied. To unravel the nature of this interaction, widespread in silico and in vitro experiments were performed. Methods: By X-ray photoelectron spectroscopy, scanning electron microscopy, water contact angle measurements and MD simulations, we characterized the interplay between the polycationic antimicrobial agent and the implant surface. A theoretical model for PHMB micelles is tested for its wetting properties and compared to carbon contaminated TiO2. In addition, quantitation of anionic functional group equivalents, the binding properties of PHMB with blocked amino end-group, and the ability to bind chlorhexidine digluconate (CHG) were investigated. Ultimately, the capability of osteoblasts to build calcium apatite, and the activity of alkaline phosphatase on PHMB coated specimens, were determined. Results: Simulated water contact angles on carbon contaminated TiO2 surfaces and PHMB micelle models reveal little influence of PHMB on the wetting properties and point out the major influence of remaining and recovering contamination from ambient air. Testing PHMB adsorption beyond the critical micelle concentration and subsequent staining reveals an island-like pattern with H2O2 as compared to an evenly modified surface with NaOH. Both CHG and PHMB, with blocked amino end groups, were adsorbed on the treated surfaces, thus negating the significant influence of PHMB’s terminal groups. The ability of osteoblasts to produce calcium apatite and alkaline phosphatase is not negatively impaired for PHMB mass coverages up to 8 μg/specimen. Conclusion: Differences in PHMB adsorption are triggered by the number of anionic groups and carbon contaminants, both of which depend on the specimen pre-treatment. With more PHMB covering, the implant surface is protected against the capture of new contamination from the ambient air, thus building a robust antimicrobial and biocompatible surface coating.
Background
Sepsis-induced intensive care unit-acquired weakness (ICUAW) features profound muscle atrophy and attenuated muscle regeneration related to malfunctioning satellite cells. Transforming growth factor beta (TGF-β) is involved in both processes. We uncovered an increased expression of the TGF-β receptor II (TβRII)-inhibitor SPRY domain-containing and SOCS-box protein 1 (SPSB1) in skeletal muscle of septic mice. We hypothesized that SPSB1-mediated inhibition of TβRII signalling impairs myogenic differentiation in response to inflammation.
Methods
We performed gene expression analyses in skeletal muscle of cecal ligation and puncture- (CLP) and sham-operated mice, as well as vastus lateralis of critically ill and control patients. Pro-inflammatory cytokines and specific pathway inhibitors were used to quantitate Spsb1 expression in myocytes. Retroviral expression plasmids were used to investigate the effects of SPSB1 on TGF-β/TβRII signalling and myogenesis in primary and immortalized myoblasts and differentiated myotubes. For mechanistical analyses we used coimmunoprecipitation, ubiquitination, protein half-life, and protein synthesis assays. Differentiation and fusion indices were determined by immunocytochemistry, and differentiation factors were quantified by qRT-PCR and Western blot analyses.
Results
SPSB1 expression was increased in skeletal muscle of ICUAW patients and septic mice. Tumour necrosis factor (TNF), interleukin-1β (IL-1β), and IL-6 increased the Spsb1 expression in C2C12 myotubes. TNF- and IL-1β-induced Spsb1 expression was mediated by NF-κB, whereas IL-6 increased the Spsb1 expression via the glycoprotein 130/JAK2/STAT3 pathway. All cytokines reduced myogenic differentiation. SPSB1 avidly interacted with TβRII, resulting in TβRII ubiquitination and destabilization. SPSB1 impaired TβRII-Akt-Myogenin signalling and diminished protein synthesis in myocytes. Overexpression of SPSB1 decreased the expression of early (Myog, Mymk, Mymx) and late (Myh1, 3, 7) differentiation-markers. As a result, myoblast fusion and myogenic differentiation were impaired. These effects were mediated by the SPRY- and SOCS-box domains of SPSB1. Co-expression of SPSB1 with Akt or Myogenin reversed the inhibitory effects of SPSB1 on protein synthesis and myogenic differentiation. Downregulation of Spsb1 by AAV9-mediated shRNA attenuated muscle weight loss and atrophy gene expression in skeletal muscle of septic mice.
Conclusions
Inflammatory cytokines via their respective signalling pathways cause an increase in SPSB1 expression in myocytes and attenuate myogenic differentiation. SPSB1-mediated inhibition of TβRII-Akt-Myogenin signalling and protein synthesis contributes to a disturbed myocyte homeostasis and myogenic differentiation that occurs during inflammation.