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Class I and class II glutaredoxins (Grxs) are glutathione (GSH)-dependent proteins, that function as oxidoreductases (class I) or mediate cellular iron trafficking (class II). Some members of class I Grxs like human Grx2 are able to complex a [2Fe-2S] cluster and form a dimeric holo complex, which renders them catalytically inactive and is the basis for their function as redox sensors. Class II Grxs like human Grx5 also complex [2Fe-2S] clusters, however these proteins transfer the clusters to other proteins. Both functionally distinct classes share a similar thioredoxin fold and conserved interaction sites for the non-covalently binding of GSH, which is required to complex the [2Fe-2S] cluster. Furthermore, the proteins from both classes contain a highly nucleophilic active site cysteine that would allow both classes to catalyze GSH-dependent oxidoreduction reactions. Despite of these similar features, only class I Grxs are able to form a mixed disulfide with GSH and to reversibly transfer it to protein thiols (de-/glutathionylation). Interestingly, neither class I Grxs nor class II Grxs can effectively compensate the loss of an essential member of the other class. Even though some structural differences were described earlier, the basis for their different functions remained unknown. In particular, the lack of catalytic activity of class II Grxs as oxidoreductases could not be explained. Here, we demonstrate that the different conformations of a conserved lysyl side chain are the molecular determinant of the oxidoreductase or Fe-S transfer activity of class I and II Grxs, respectively. A specific loop structure that is conserved in all class II Grxs determines one lysyl conformation that prevents the formation of a mixed disulfide of the active site cysteinyl thiol with GSH. Using engineered mutants of hGrx2 and hGrx5, we demonstrated that the exchange of the distinct loop between the classes results in a loss of oxidoreductase function of class I hGrx2 and the gain of oxidoreductase activity of class II hGrx5. The altered GSH binding mode also profoundly changes the [2Fe-2S] cluster binding of the engineered mutants and thereby also influences stability of the holo complexes, a pre-determinant for [Fe-S] cluster transfer activity. With the minor shift of 2 Å in a conserved lysyl side chain orientation we were not only able to modify the catalytic activity of two small human mitochondrial proteins, but on a much larger scale also provided evidence for the previously unknown structural basis that determines the function of all class I and class II Grxs.
The oxidoreductase activity of hGrx2 was also analyzed in vivo in a model of doxorubicin cell toxicity. Applying a mass spectrometrical approach, we identified various mitochondrial proteins as targets for redox regulation. Furthermore, our results gave reason to reconsider some common assumptions regarding doxorubicin-induced apoptosis and the protective function of mitochondrial Grx2.
Currently, plastic materials are an integral part of our lives, but their production mostly bases on fossil fuels or derivatives, which resources are decreasing. Extraction and processing of non-renewable resources have also negative impact on environment. One of the most promising and environmentally friendly approaches is use of microorganism. This PhD dissertation presents the non-conventional yeast Arxula adeninivorans as a host for production of bio-based and biodegradable poly(hydroxyalkanoates) plastics poly(hydroxybutyrate) and co-polymer poly(hydroxybutyrate-co-hydroxyvalerate). Additionally, the constructed yeast strain was able to secrete enantiomerically pure (R)-3-hydroxybutyric acid.
The production of PHAs requires three enzymes: β-ketothiolase, acetoacetyl-CoA reductase and PHA synthase. The strategy followed in this project was divided into two parts. While all three enzymes are responsible for intracellular production of PHA polymer, first two only lead to secretion of (R)-3-HB into culture media, which was used in a first stage of work to establish and optimize polymer production. Both, different bacterial strains and yeast A. adeninivorans were taken into account in screening of the genes encoding aforementioned enzymes. Bacterial genes were chemically synthesized using codon optimization pattern and endogenous genes were obtained using PCR and genomic DNA template from A. adeninivorans LS3 wild-type strain. Each gene was cloned into Xplor2 vector between TEF1 constitutive promoter and PHO5 terminator. Vector containing both thiolase and reductase genes was used for A. adeninivorans transformation.
The best combination of heterologous genes was overexpression of β-ketothiolase gene from Clostridium acetobutylicum and acetoacetyl-CoA reductase gene from Cupriavidus necator which led to secretion of 4.84 g L−1 (R)-3-HB, at a rate of 0.023 g L−1 h−1 over 214 h in shaking flask cultivation. Further optimization by fed-batch culturing with glucose as a carbon source did not improve (R)-3-HB secretion, but the rate of production was doubled to 0.043 g L−1 h−1 [3.78 g L−1 of (R)-3-HB at 89 h].
The product of acetoacetyl-CoA reductase is (R)-3-HB-CoA and further removing of CoA moiety is needed for acid secretion into culture media. A. adeninivorans is able to conduct this process without any additional modification but the conversion rate is unknown. Two thioesterases, cytosolic TesBp encoded by TesB gene from E. coli and mitochondrial ATes1p encoded by ATES1 gene from A. adeninivorans, were analysed to enhance secretion process. Additionally, a cytosolic version of ATES1 gene (ATES1cyt) was tested. All three genes were expressed in A. adeninivorans cells under TEF1 constitutive promoter together with thiolase and reductase genes. Despite detected enzymatic activity the yield of (R)-3-HB synthesis and secretion was not increased. Moreover, overexpressed thioesterases negatively influenced cell growth, indicating that they act on other metabolic components. The results provided two sets of information, first, the endogenous secretion system is sufficient for (R)-3-HB production; second, further screening of suitable genes needs to be performed.
Based on optimization of (R)-3-HB synthesis, thiolase gene (thl) from C. acetobutylicum and reductase gene (phaB) from C. necator were chosen to combine with PHA synthase gene (phaC) for creating the PHB-V producing strain. The PHA synthase expression module, containing TEF1 promoter and PHO5 terminator, was cloned into Xplor2 vector together with thiolase and reductase expression modules and used for A. adeninivorans transformation. The engineered strain accumulated up to 7.47% PHB of dcw. During the set of cells passaging A. adeninivorans lost the ability to accumulate polymer with maximal 23.1 % of primary accumulation level. Additionally, use of a vector including hygromycin B antibiotic resistance marker (instead of auxotrophic marker in Xplor2) did not improve polymer accumulation and stability.
To counteract the effect of loss of accumulation stability, phasin gene (phaP1), originated from C. necator, was introduce together with PHA pathway genes. First screening cultivations resulted in stabilizing of polymer production reaching 9.58 % PHB of dcw and only 12.0 % loss of production ability. Further experiments increased PHB content with 19.9% PHB of dcw (3.85 g L-1) after 180 h of cultivation using rich medium. Use of another thiolase gene, the second thiolase from C. necator (bktB), which theoretically should induce production of PHBV copolymer, led to accumulation only 11.4% PHB of dcw after 139 h and no PHV fraction was detected.
Variation of the ratio between flask volume and amount of media influences the level of aeration. Importantly, decrease of aeration level significantly increased polymer synthesis. Additionally, PHB-V copolymer accumulation has been induced by use of different carbon source co-substrates. Use of rich media supplemented with ethanol allow the strain with thl thiolase to accumulate up to 42.9 % PHB of dcw without PHV fraction and with bktB thiolase to 30.5 % PHB of dcw. Nevertheless, despite of lower total amount of polymer, supplementation with 1-propanol allow both strains to accumulate PHB-V copolymer with 7.30 %mol and 22.5 %mol of PHV for thl and bktB strains, respectively.
Optimization based on genetic engineering further enhanced polymer production yield led to exceeding of 50 % PHB-V of dcw. For doubling the gene dosage, PHA synthesizing strains of A. adeninivorans were again transformed with Xplor2 vector containing PHA pathway genes. Resulting strains exhibited twice the level of enzymatic activities of thiolase and reductase compared with strains transformed once with expression vector. In a shaking flask experiment the strain transformed twice with vector containing bktB thiolase reached after 240 h 52.1% PHB-V of dcw (10.8 g L-1) with 12.3 %mol of PHV fraction which is the highest level found in yeast. As another genetic approach, a fusion strain has been created. Two different strains have been established and merged using protoplast fusion technique. Doubling of genetic material resulted in similar level of copolymer produced by Arxula as in former experiments (50.2% of dcw, 10.7 g L-1).
Culture conditions were optimized in controllable cultivation using fed-batch mode. Although optimal oxygen and pH level and continuous carbon source and nitrogen feeding were maintained, final polymer level in % of dry mass was around three times lower than for shaking flask experiment. Nevertheless, efficient growth of Arxula in fed-batch mode led to increase of total copolymer level in g L-1 (16.5 g L-1 compare to 10.8 g L-1 for shaking flasks) showing the feasibility of using Arxula strain for up-scaling production of copolymer.
Acetyl-CoA is a main precursor in synthesis of PHB-V copolymer and change of its pool was investigated. ATP citrate lyase is a cytosolic enzyme converting citrate into oxaloacetate and acetyl-CoA, supporting the biosynthesis of fatty acids. Two genes encoding Acl subunits from Aspergillus nidulans (AnAcl1 and AnAcl2) were again cloned into Xplor2 vector and transformed into A. adeninivorans PHA producing strain. Despite of higher enzymatic activity of AnAclp, accumulation of polymer was around three times higher for control without expression of lyase genes. Expectedly, the strain expressing AnAcl1/2 genes accumulated larger amount of each stearic, palmitic and oleic acid in both standard and fatty acid inducing conditions (lower nitrogen level). Thus, overexpression of AnAcl1/2 genes in A. adeninevorans cells may improve biosynthesis of fatty acids but is ineffective for PHB polymer accumulation.
The aim of the project was use of starch-based media, manufactured as by-products, for polymer production. Genetically engineered Arxula strains were cultivated using these media instead of glucose-based media. Although yeast cells were both able to secrete (R)-3-HB and to accumulate PHB, the yield was lower than for previous media. Additionally, only trace of PHV was found at the end of cultivation time when 1-propanol was supplemented. Obtained results showed that use of cheaper media is a promising approach to decrease production costs but further optimization needs to be performed especially for extended scale of production.
Determination of produced copolymer has been done based on microscopic analysis and studies of physical and chemical properties. Results revealed that Arxula accumulated PHA polymer in cytosolic granules with a similar size range compared to the ones produced by bacteria. The physicochemical study showed that produced polymer exhibited slightly different properties in comparison to bacterial polymer with similar content of PHV, i.e. very-low molecular mass, higher melting and glass transition temperature.
All above results showed that A. adeninivorans is a promising host for PHB-V production. Expression of phasin greatly increased production and stability of polymer, which led to an accumulation level never found before in yeast. Further optimization in higher production scale using cheap starch-based media may establish Arxula strain as a valuable tool for industrial production of PHB-V copolymer.
Optomechanical (om) systems are characterized by their nonlinear light-matter interaction. This is responsible for unique dynamic properties and allows the detection of a variety of classical and quantum mechanical phenomena on a microscopic as well as on a macroscopic scale. In this work we have studied the dynamic behavior of two laser-driven om systems, the single om cell ("cavity optomechanics / membrane-in-the-middle setup") and a two-dimensional hexagonal array of these cells ("om graphene"). The first case was motivated by the possibility to detect the transition from quantum mechanics to classical mechanics directly on the basis of the dynamic behavior. For this we focus on multistability effects of the optical and mechanical degrees of freedom, that are modeled by harmonic oscillators. Our description is based on the quantum optical master equation, which takes into account the environmental interaction assuming a vanishing temperature. As a consequence of decoherence, the dynamics occur near the semiclassical limit, i.e. it is characterized by quantum fluctuations. The quantum-to-classical transition is realized formally by rescaling the equations of motion. In the classical limit, quantum fluctuations disappear and the mean field equations were evaluated by analytical and numerical methods. We found that classical multistability is characterized by stationary signatures on the route to chaos, as well as by the coexistence of single-periodic orbits for the mechanical degree of freedom. The latter point was extensively evaluated by means of a self-consistent approach. For the dynamics in the quantum regime quantum fluctuations cannot be neglected. For this purpose, the master equation was solved by means of a numerical implementation of the Quantum State Diffusion (QSD) method. Based on Wigner and autocorrelation functions, we were able to show that quantum multistability is a dynamic effect: chaotic dynamics is suppressed and there is a time-dependent distribution of the phase space volume on classical simple-periodic orbits. The results can be interpreted within a semiclassical picture, which makes use of the single QSD quantum trajectory. Accordingly, the quantum-classical transition is explained as a time-scale effect, which is determined by tunneling probabilities in an effective mean-field potential. The subject of the second part of the work is the transport of low-energy Dirac quasiparticles in om graphene, propagating as light and sound waves. For this purpose, we investigated the scattering of a plane light wave by laser-induced photon-phonon coupling planar and circular barriers. The starting point is the om Dirac equation, which results from the continuum approximation of the Hamiltonian description of the two-dimensional array near the semiclassical limit. This work was motivated by the rich and interesting relativistic transport and tunneling phenomena found for electrons in graphene, which now appear in a new way. The reason is the presence of the new spin degree of freedom, which distinguishes the optical and mechanical excitations. In this spin space, the om interaction can be understood as a potential, which in our analysis consists of a time-independent and a time-dependent sinusoidal part. For the first case of a static barrier, the transport is elastic and is characterized by stationary scattering signatures. After solving the scattering problem via continuity conditions we were able to identify different scattering regimes depending on scattering parameters. In addition to relativistic phenomena such as Klein tunneling, simple parameter variation allows to use the barrier as a resonant light-sound interconverter and angle-dependent emitter. For the oscillating barrier, the transport is inelastic and is characterized by dynamic scattering signatures. To solve the time-periodic scattering problem, we have applied the Floquet theory for an effective two-level system. As a result of the barrier oscillation, photons and phonons can get and give away energy portions in the form of integer multiples of the oscillation frequency. The interference of short (classical) and long-wave (quantum) components leads to mixing of the scattering regimes. This allows to use the barrier as a time-periodic light-sound interconverter with interesting radiation characteristics. In addition, we have argued that the oscillating barrier provides the necessary energetic conditions for detecting zitterbewegung.
Streptococcus pneumoniae (pneumococci) and Staphylococcus aureus (S. aureus) are human-specific commensals of the upper respiratory tract. Every individual is asymptomatically colonized with both bacteria at least once in their life-time. The opportunistic pathogens can affect further organs and invade into deeper tissue. The occupation of normally sterile niches of the human body with the bacteria can lead to local infections such as sinusitis, otitis media and abscesses, or to life-threatening diseases like pneumonia, meningitis or sepsis. A strong interaction between the bacterium and the respiratory epithelial cells is a prerequisite for a successful colonization. This interaction is ensured by bacterial surface proteins, so called adhesins. The binding of the adhesins to the epithelial lineage occurs predominantly indirectly via components of the extracellular matrix (ECM), but also directly to cellular receptors. Pneumococci and S. aureus bind to various ECM glycoproteins, amongst others: fibronectin, fibrinogen, vitronectin, and collagen. Also binding of both pathogens to human thrombospondin-1 has been described. Thrombospondin-1 is mainly stored in the α-granula of thrombocytes (platelets) and released into the circulation upon activation. However, thrombospondin-1 is also produced and secreted by other cell types like endothelial cells, macrophages, and fibroblasts, which gets subsequently incorporated as component into the ECM. So far, no thrombosponin-1-binding adhesins of pneumococci were identified. PspC, Hic, and PavB are important surface-localized virulence factors, which were shown to interact with human ECM and plasma proteins. PspC and Hic bind to vitronectin and factor H, which inhibits the complement cascade of the human immune system. PavB interacts with fibronectin and plasminogen, and a pavB-deficient mutant of S. pneumoniae showed diminished capacity in colonization in a mouse model. Among the surface proteins of S. aureus, only Eap was identified as thrombospondin-1-binding adhesin. Beyond colonization, pneumococci and S. aureus can enter the blood circulation, interact with platelets, and cause their activation. The aggregation of platelets, especially initiated by S. aureus, plays an important role in the clinic, because most of the septic patients develop thrombocytopenia. Surface localized factors of
S. pneumoniae triggering platelet activation are unknown to date. In contrast, few proteins of S. aureus with potential to activate platelets, including Eap, were identified previously.
This study identified the surface proteins PavB, PspC, and Hic of S. pneumoniae as specific ligands of the human thrombospondin-1. Flow cytometric, surface plasmon resonance spectroscopic and immunological analyses revealed interactions between the pneumococcal proteins and soluble as well as immobilized thrombospondin-1. The use of specific pneumococcal deletion mutants verified the importance of the three virulence factors as binding partners of soluble thrombospondin-1. The results suggest that pneumococci are capable of acquiring soluble thrombospondin-1 from blood as well as utilizing immobilized glycoprotein of the ECM as substrate for adhesion. Furthermore, the thrombospondin-1-binding domain within the pneumococcal proteins was analyzed by use of recombinant fragments of PavB, PspC, and Hic. The binding capacity of thrombospondin-1 increased proportionally with the amount of repetitive sequences in PavB and PspC, and the length of the α-helical region within the Hic molecule. The binding behavior of thrombospondin-1 towards PavB and PspC is comparable with that of the ECM proteins vitronectin and fibronectin, but is unique towards Hic.
The localization of the binding domain of the adhesins within the thrompospondin-1 molecule occurred via use of glycosaminoglycans as competitive inhibitors for the interaction. The results suggest that the pneumococcal proteins Hic and PspC target the identical binding region within thrombospondin-1, which differs from the binding domain for PavB. However, all three virulence factors seem to bind in the N-terminal part of thrombospondin-1.
Two-dimensional gel electrophoresis, thrombospondin-1 overlay assay and subsequent mass spectrometric analysis identified AtlA of S. aureus as a surface localized interaction partner of human thrombospondin-1. Moreover, a vitronectin binding activity for AtlA was determined. Immunological and surface plasmon resonance binding studies with recombinant AtlA fragments revealed that interactions with both matrix proteins is mediated via the C-terminal located repeats R1R2 of the AtlA amidase domain. Binding of thrombospondin-1 and vitronectin occurred not simultaneously, due to a competitive inhibition.
The second part of the study focused on the activation of human platelets by recombinant pneumococcal and staphylococcal proteins. In total, 28 proteins of S. pneumoniae and 52 proteins of S. aureus were incubated with human platelets. The activation of the cells was detected by flow cytometry using the activation markers P-selectin and the dimerization of the integrin αIIbβIII. The proteins CbpL, PsaA, PavA, and SP_0899 of S. pneumoniae induced platelet activation, however, the detailed mechanism has to be deciphered in further studies. Furthermore, the secreted proteins CHIPS, FLIPr, and AtlA of S. aureus were discovered as inductors for the activation of platelets. In addition, the domains of AtlA and Eap, crucial for platelet activation, were narrowed down. Interestingly, CHIPS, FLIPr, and Eap were described as inhibitors of neutrophil recruitment. Platelets are recently recognized as immune cells, due to the expression of immune receptors. The data obtained in this study highlight a comprehensive spectrum of effects of the S. aureus proteins towards different type of immune cells. Besides the activation of platelets in suspension buffer and plasma, the aggregation of platelets in whole blood was triggered by the proteins CHIPS, AtlA, and Eap. These results suggest a contribution of the proteins during the S. aureus-induced infectious endocarditis. Secretion of the platelet activating virulence factors, which were identified within this study, might represent a pathogenic strategy during S. aureus infection in which a direct contact between S. aureus and platelets is not required or even avoided.
In conclusion, PavB, PspC, and Hic of S. pneumoniae and AtlA of S. aureus were identified as interaction partners of human thrombospondin-1. Furthermore, CHIPS, FLIPr, AtlA, and Eap were characterized as platelet activators. This study provides candidates for the development of protein-based vaccines, to prevent bacterial colonization and to neutralize secreted pathogenic factors.
Objectives: We aimed to update the 2010 evidence- and consensus-based national clinical guideline on the diagnosis and management of uncomplicated urinary tract infections (UTIs) in adult patients. Materials and Methods: An interdisciplinary group consisting of 17 representatives of 12 medical societies and a patient representative was formed. Systematic literature searches were conducted in MEDLINE, EMBASE, and the Cochrane Library to identify literature published in 2010–2015. Results: We provide 75 recommendations and 68 statements in the updated evidence- and consensus-based national clinical guideline. The diagnostics part covers practical recommendations on cystitis and pyelonephritis for each defined patient group. Clinical examinations, as well as laboratory testing and microbiological pathogen assessment, are addressed. Conclusion: In accordance with the global antibiotic stewardship initiative and considering new insights in scientific research, we updated our German clinical UTI guideline to promote a responsible antibiotic use and to give clear hands-on recommendations for the diagnosis and management of UTIs in adults in Germany for healthcare providers and patients.
Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study
(2018)
Introduction: Hyperbaric oxygenation (HBO), in addition to anti-infective and surgical therapy, seems to be a key treatment point for Fournier’s gangrene. The aim of this study was to investigate the influence of HBO therapy on the outcome and prognosis of Fournier’s gangrene. Patients and Methods: In the present multicenter, retrospective observational study, we evaluated the data of approximately 62 patients diagnosed with Fournier’s gangrene between 2007 and 2017. For comparison, 2 groups were distinguished: patients without HBO therapy (group A, n = 45) and patients with HBO therapy (group B, n = 17). The analysis included sex, age, comorbidities, clinical symptoms, laboratory and microbiological data, debridement frequency, wound dressing, antibiotic use, outcome and prognosis. The statistical analysis was performed with GraphPad Prism 7® (GraphPad Software, Inc., La Jolla, USA). Results: Demographic data showed no significant differences. The laboratory parameters C-reactive protein and urea were significantly higher in group B (group B: 301.7 vs. 140.6 mg/dL; group A: 124.8 vs. 54.7 mg/dL). Sepsis criteria were fulfilled in 77.8 and 100% of the patients in groups A and B respectively. Treatment in the intensive care unit (ICU) was therefore indicated in 69% of the patients in group A and 100% of the patients in group B. The mean ICU stay was 9 and 32 days for patients in groups A and B respectively. The wound debridement frequency and hospitalization stay were significantly greater in group B (13 vs. 5 debridement and 40 vs. 22 days). Initial antibiosis was test validated in 80% of the patients in group A and 76.5% of the patients in group B. Mortality was 0% in group B and 4.4% in the group A. Conclusion: The positive influence of HBO on the treatment of Fournier’s gangrene can be estimated only from the available data. Despite poorer baseline findings with comparable risk factors, mortality was 0% in the HBO group. The analysis of a larger patient cohort is desirable to increase the significance of the results.
Background and Aims: Gastrointestinal stromal tumors (GISTs) are rare malignancies but the most common mesenchymal tumors of the digestive tract. Recent advances in diagnostic imaging and an increasing incidence will confront us more frequently with stromal tumors. This single center study aimed to characterize GIST patients in terms of tumor location, clinical presentation, metastasis formation, as well as associated secondary malignancies. Methods: In a retrospective study, 104 patients with a histologically confirmed diagnosis of GIST, collected between 1993 and 2011, were characterized for several clinical features. Results: The most common GIST location was the stomach (67.6%) followed by the small intestine (16.2%). Gastrointestinal bleeding (55.8%) and abdominal pain (38.5%) were the most frequently reported symptoms whereas about one-third of patients remained clinically asymptomatic (31.6%); 14.4% of patients had either synchronous or metachronous metastases and there was a significant prevalence also in the low risk group. The proportion of secondary malignant associated neoplasms was 31% in our GIST cohort, among which gastrointestinal, genitourinary tumors, and breast cancer were the most prevalent. Conclusion: There was a considerable risk for metastasis formation and the development of secondary neoplasias that should encourage discussion about the appropriate surveillance strategy after surgery for GIST.
Background: We aimed to update the 2010 evidence- and consensus-based national clinical guideline on the diagnosis and management of uncomplicated urinary tract infections (UTIs) in adult patients. Results are published in 2 parts. Part 1 covers methods, the definition of patient groups, and diagnostics. This second publication focuses on treatment of acute episodes of cystitis and pyelonephritis as well as on prophylaxis of recurrent UTIs. Materials and Methods: An interdisciplinary group consisting of 17 representatives of 12 medical societies and a patient representative was formed. Systematic literature searches were conducted in MEDLINE, EMBASE, and the Cochrane Library to identify literature published in 2010–2015. Results: For the treatment of acute uncomplicated cystitis (AUC), fosfomycin-trometamol, nitrofurantoin, nitroxoline, pivmecillinam, and trimethoprim (depending on the local rate of resistance) are all equally recommended. Cotrimoxazole, fluoroquinolones, and cephalosporins are not recommended as antibiotics of first choice, for concern of an unfavorable impact on the microbiome. Mild to moderate uncomplicated pyelonephritis should be treated with oral cefpodoxime, ceftibuten, ciprofloxacin, or levofloxacin. For AUC with mild to moderate symptoms, instead of antibiotics symptomatic treatment alone may be considered depending on patient preference after discussing adverse events and outcomes. Primarily non-antibiotic options are recommended for prophylaxis of recurrent urinary tract infection. Conclusion: In accordance with the global antibiotic stewardship initiative and considering new insights in scientific research, we updated our German clinical UTI guideline to promote a responsible antibiotic use and to give clear hands-on recommendations for the diagnosis and management of UTIs in adults in Germany for healthcare providers and patients.
Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study
(2018)
Introduction: Hyperbaric oxygenation (HBO), in addition to anti-infective and surgical therapy, seems to be a key treatment point for Fournier’s gangrene. The aim of this study was to investigate the influence of HBO therapy on the outcome and prognosis of Fournier’s gangrene. Patients and Methods: In the present multicenter, retrospective observational study, we evaluated the data of approximately 62 patients diagnosed with Fournier’s gangrene between 2007 and 2017. For comparison, 2 groups were distinguished: patients without HBO therapy (group A, n = 45) and patients with HBO therapy (group B, n = 17). The analysis included sex, age, comorbidities, clinical symptoms, laboratory and microbiological data, debridement frequency, wound dressing, antibiotic use, outcome and prognosis. The statistical analysis was performed with GraphPad Prism 7® (GraphPad Software, Inc., La Jolla, USA). Results: Demographic data showed no significant differences. The laboratory parameters C-reactive protein and urea were significantly higher in group B (group B: 301.7 vs. 140.6 mg/dL; group A: 124.8 vs. 54.7 mg/dL). Sepsis criteria were fulfilled in 77.8 and 100% of the patients in groups A and B respectively. Treatment in the intensive care unit (ICU) was therefore indicated in 69% of the patients in group A and 100% of the patients in group B. The mean ICU stay was 9 and 32 days for patients in groups A and B respectively. The wound debridement frequency and hospitalization stay were significantly greater in group B (13 vs. 5 debridement and 40 vs. 22 days). Initial antibiosis was test validated in 80% of the patients in group A and 76.5% of the patients in group B. Mortality was 0% in group B and 4.4% in the group A. Conclusion: The positive influence of HBO on the treatment of Fournier’s gangrene can be estimated only from the available data. Despite poorer baseline findings with comparable risk factors, mortality was 0% in the HBO group. The analysis of a larger patient cohort is desirable to increase the significance of the results.
Rabies virus (RABV) is an ancient, highly neurotropic rhabdovirus that causes lethal encephalitis. Most RABV pathogenesis determinants have been identified with laboratory-adapted or attenuated RABVs, but details of natural RABV pathogenesis and attenuation mechanisms are still poorly understood. To provide a deeper insight in the cellular mechanism of pathogenies of field RABV, this work was performed to assess virus strain specific differences in intra-neuronal virus transport, to identify cell culture adaptive mutations in recombinant field viruses and to explore shRNA-expressing RABVs as research tools for targeted host manipulation in infected cells.
Comparison of chimeric RABVs with glycoprotein (G) ecto-domains of different lyssaviruses, together with field RABVs from dog and fox in dorsal root ganglion (DRG) neurons revealed no detectable differences in the axonal accumulation of the viruses. This indicates that previously described G-dependent transport of newly formed RABV in axons can occur both in laboratory-adapted and field RABV. Moreover, partial overlap of nucleoprotein (N) and G protein particles in field virus infected DRG axons supported the hypothesis of the “separate model” for anterograde RABV transport.
Serial passages of recombinant dog and fox field clones in different cell lines led to the identification of general (D266N) and cell line specific (K444N) adaptive mutations in the G ecto-domain of both viruses. In BHK cells, synergistic effects of D226N, K444N and A417T on field dog virus G protein surface localization led to the loss of endoplasmic reticulum (ER) retention of G and increased virus titers in the supernatant, indicating that limited virus release by ER retention is a major bottleneck in cell culture adaptation. In addition, selection of mutations within the C-terminus of the RABV phosphoprotein (P) (R293H and R293C in fox and dog viruses, respectively) led to the hypothesis of altered binding affinities to nucleoprotein and RNP complexes. Identification of the above mentioned amino acid substitutions together with alterations in a suboptimal transcription stop signal in the P/M gene border indicated that adaptation to cell culture replication occurs on both levels, RNA transcription/replication and virus release.
To evaluate the possibility of an expression of a functional microRNA-adapted short-hairpin RNAs (miR-shRNA) expressing RABV, recombinant RABVs encoding miR-shRNAs against cellular Dynein Light Chain 1 (DYNLL1) and Acidic Nuclear Phosphoprotein 32 family member B (ANP32B) were generated. In spite of cytoplasmic transcription of the respective mRNAs, downregulation of DYNLL1 and ANP32B mRNA and respective protein levels in infected cells revealed correct processing to functional shRNAs. Specific downregulation of the cellular genes at 2, 3 and 4 days post infection further demonstrated feasibility of the approach in standard cell lines. However, it remained open whether miR-shRNA expressing RABV can be used to study neuro-infection in vivo. Since first attempts in primary rat neuron cultures failed, it has to be clarified in further experiments whether this strategy can be used in mature, non-dividing neurons or whether breakdown of the nucleus in the course of cell division is a requirement for the processing of cytoplasmically expressed miR-RNA by nuclear RNases.
By providing novel insights in axonal RABV transport and cell culture adaptive mutations this work extends the current understanding of RABV pathogenesis in natural and non-natural cell environments. Moreover, it provides a basis for further pathogenicity studies in which the impact of cell culture adaptation through increased virus release on RABV virulence can be investigated. With successful expression of functional miR-shRNAs from RABV vectors, this work also provides a tool for RABV gene targeting in infected cell lines and thus may contribute to the further investigation of RABV-host-cell-interactions.