Refine
Year of publication
Document Type
- Doctoral Thesis (80)
- Article (51)
Language
- English (131) (remove)
Is part of the Bibliography
- no (131)
Keywords
- - (37)
- proteomics (13)
- Staphylococcus aureus (10)
- Virologie (9)
- Proteomics (5)
- metaproteomics (5)
- Bacillus subtilis (4)
- Massenspektrometrie (4)
- Proteomanalyse (4)
- biofilm (4)
Institute
- Abteilung für Mikrobiologie und Molekularbiologie (131) (remove)
Publisher
- MDPI (20)
- Frontiers Media S.A. (18)
- Nature Publishing Group (3)
- S. Karger AG (3)
- Wiley (3)
- American Society for Microbiology (ASM) (1)
- BioMed Central (BMC) (1)
- Elsevier (1)
- Springer Nature (1)
The impact of summer drought on peat soil microbiome structure and function-A multi-proxy-comparison
(2022)
Different proxies for changes in structure and/or function of microbiomes have been developed, allowing assessing microbiome dynamics at multiple levels. However, the lack and differences in understanding the microbiome dynamics are due to the differences in the choice of proxies in different studies and the limitations of proxies themselves. Here, using both amplicon and metatranscriptomic sequencings, we compared four different proxies (16/18S rRNA genes, 16/18S rRNA transcripts, mRNA taxonomy and mRNA function) to reveal the impact of a severe summer drought in 2018 on prokaryotic and eukaryotic microbiome structures and functions in two rewetted fen peatlands in northern Germany. We found that both prokaryotic and eukaryotic microbiome compositions were significantly different between dry and wet months. Interestingly, mRNA proxies showed stronger and more significant impacts of drought for prokaryotes, while 18S rRNA transcript and mRNA taxonomy showed stronger drought impacts for eukaryotes. Accordingly, by comparing the accuracy of microbiome changes in predicting dry and wet months under different proxies, we found that mRNA proxies performed better for prokaryotes, while 18S rRNA transcript and mRNA taxonomy performed better for eukaryotes. In both cases, rRNA gene proxies showed much lower to the lowest accuracy, suggesting the drawback of DNA based approaches. To our knowledge, this is the first study comparing all these proxies to reveal the dynamics of both prokaryotic and eukaryotic microbiomes in soils. This study shows that microbiomes are sensitive to (extreme) weather changes in rewetted fens, and the associated microbial changes might contribute to ecological consequences.
Reactive species play an essential role in orchestrating wound healing responses. They act as secondary messengers and drive redox-signaling pathways that are involved in the hemostatic, inflammatory, proliferative and remodeling phases of wound healing. Cold plasma produces a profusion of short- and long-lived redox species that promotes wound healing, however, until today, the knowledge of CAP mediated wound healing remained scarce. In this thesis, CAP mediated wound healing mechanism and their effect on extracellular matrix and adhesion molecules have been investigated. To this end, a keratinocyte cell line (HaCaT), skin fibroblast cell line (GM Fbs) and an in vitro coculture model including both HaCaT and GM Fbs at a 2:1 ratio, were employed to investigate the cross talk between these two skin cell types.
We examined the impact of CAP on extracellular matrix proteins and cell adhesion molecules in GM Fbs and observed a significant impact of cold plasma treatment on the expression level of collagen moieties, cell adhesion molecule like integrin, cadherin, versican, MMPs as well as extracellular matrix proteins.
Moreover, scratch assays with monocultures of HaCaT, GM Fbs and coculture of these two cell types were performed. We detected that, CAP accelerated the migratory capability of HaCaT cells cocultured with fibroblasts. In fact, compared to HaCaT monoculture, a significant acceleration on cell migration was observed in coculture upon CAP treatment. NAC, a potent antioxidant could abrogate this CAP-stimulated cell migration in coculture, further pointing towards the importance of well-orchestrated reactive species in wound healing. To better understand this CAP-mediated effect on cell migration, we examined the signaling pathways involved in tissue homeostasis and regeneration. We checked the HIPPO signaling pathway and observed an upregulation of several signaling molecules at transcriptional level in GM Fbs upon CAP treatment.
YAP is the central nuclear executer of HIPPO signaling pathway. YAP was upregulated in both HaCaT cells and GM Fbs. The major downstream effectors of the HIPPO signaling pathway (CTGF and Cyr61) were also upregulated in dermal fibroblasts at both transcriptional and protein level. However, administration of antioxidant NAC inhibited CAP-mediated wound healing and abrogated the gene expression of the HIPPO downstream effectors. These results confirm that the upregulation of YAP-CTGF-CYR61 axis is due to CAP-generated redox species. In HaCaT cells, both CTGF and Cyr61 was minimally transcribed. Even though CTGF was rarely detected in HaCaT cells on the protein level,Cyr61 remained undetected. This again shows the importance of the cross talk between fibroblasts and keratinocytes.
The coculture with the inclusion of fibroblasts showed an accelerated migration rate, compared to HaCaT monoculture which specifies a cross talk between these two cell types. Thus, monoculture of HaCaT cells were incubated with CAP-treated and untreated fibroblast conditioned medium. Interestingly, we observed that HaCaT cells exhibited an improved cell migration rate when incubated with CAP-treated fibroblast-conditioned media compared to that observed after incubation with untreated media. Upon investigation, an induction of CTGF and Cyr61 secretion was observed upon CAP treatment in the fibroblast-conditioned media. Furthermore, exposure to recombinant CTGF and Cyr61 could also significantly improve HaCaT cell migration which confirms that CAP mediated accelerated cell migration is due to activation of YAP-CTGF-Cyr61 axis.
In conclusion, this study revealed a completely new mechanical insight of CAP mediated wound healing. Along with several other ECM molecules, CAP activates a regenerative signaling pathway i.e., HIPPO signaling pathway in dermal fibroblasts at the onset of wound healing. Dermal fibroblasts drive a paracrine interaction by secreting CTGF and Cyr61 in close vicinity of wound, resulting in accelerated keratinocyte migration and wound healing in coculture.
Until today, more than 100 years after its first description in Italy, the highly pathogenic avian influenza virus (HPAIV) has not lost its fearsome character for wild birds, poultry and humans. On the contrary, the number of outbreaks with high casualty rates in wild birds and poultry has multiplied in recent years and cases of zoonotic infections are also increasingly reported from HPAI endemic areas. The epidemiology of these infections is complex and also involves surface water and possibly sediments of shallow standing waters, which could play a role as a vector medium and/or virus reservoir. The goal of this project was to expand current knowledge of the influence of water on the spread of AIV. As part of this project, we were able to ...
1. ...improve AIV detection methods using real time RT-PCR in terms of sensitivity and breadth of viruses detected. In addition, we succeeded in economizing the procedure so that fewer resources are required and results are obtained faster (publication I: [173]).
2. ...develop an ultrafiltration-based enrichment method for AIV from surface water and evaluate it with field samples from HPAI outbreak areas in wild bird habitats (Wadden Sea coast of Schleswig-Holstein) and previously unaffected regions (Antarctic Weddell Sea) (publication II: [174]). Furthermore, protocols for testing different environmental sample matrices for AIV screening were tested and compared to results of passive monitoring by dabbing diseased or dead wild birds. AIV was detected in more than half (61%) of 44 water samples. We received additional sediment samples from 36 of the 44 water samples. In 18 of 36 of the sediments tested, as well as in 4.16% of 1705 fecal samples tested AIV was detected. However, the studies of the environmental samples mostly yielded only generic AIV detections, with viral loads in the range of the detection limit. This massively hampered further investigations for sub- and pathotyping. In contrast, 79.41% of 68 samples from passive monitoring showed high to very high HPAIV viral loads which also allowed sub- and pathotyping.
3. ...demonstrate in animal experiments that even very low titers (0.1 TCID50 ml-1) of HPAI viral infectivity in water can induce productive infection in susceptible but clinically largely resistant mallard ducks (publication III: [175]). Furthermore, we were able to develop evidence that there is a difference in virus spread that depends on the type of (contaminated) water source. This means that infections on poultry farms with inverted or nipple drinkers may follow a different course than infections in the wild, which are mediated via larger surface waters.
Overall, the results of this project highlight the important role of surface and drinking water, as well as aquatic sediments, in the spread of AIV. The methods developed here for AIV detection extend the possibilities for surveillance of AIV infections; however, passive remains superior to active surveillance of HPAIV infections in several aspects. Examination of various environmental samples did not yield a significant advantage in terms of an early warning system that would indicate the presence or spread of HPAIV in wild bird habitats prior to the occurrence of lethal infections in wild birds.
The spatio-temporal reduction and oxidation of protein thiols is an essential mechanism in signal transduction inall kingdoms of life. Thioredoxin (Trx) family proteins efficiently catalyze thiol-disulfide exchange reactions andthe proteins are widely recognized for their importance in the operation of thiol switches. Trx family proteinshave a broad and at the same time very distinct substrate specificity–a prerequisite for redox switching. Despiteof multiple efforts, the true nature for this specificity is still under debate. Here, we comprehensively compare theclassification/clustering of various redoxins from all domains of life based on their similarity in amino acidsequence, tertiary structure, and their electrostatic properties. We correlate these similarities to the existence ofcommon interaction partners, identified in various previous studies and suggested by proteomic screenings. Theseanalyses confirm that primary and tertiary structure similarity, and thereby all common classification systems, donot correlate to the target specificity of the proteins as thiol-disulfide oxidoreductases. Instead, a number ofexamples clearly demonstrate the importance of electrostatic similarity for their target specificity, independent oftheir belonging to the Trx or glutaredoxin subfamilies
Understanding of the regulatory mechanisms controlling stress gene expression of S.aureus in response to environmental stress is very essential in studying its fitness and virulence. In this work, the changes in protein expression profiles as well as the gene transcription of S.aureus after heat exposure, osmotic stress and in response to the antibiotic puromycin were studied in order to provide detailed insights into the response of S.aureus to various kinds of environmental stress under in vitro conditions, namely: (1) to investigate the global response of S.aureus to heat stress conditions using transcriptomic and proteomic analyses. (2) to study the transcriptome and proteome of S.aureus in response to antibiotic substance puromycin. (3) to define the proteome signatures of S.aureus under NaCl stress condition. (4) to complete the proteome map of cytoplasmic proteins of S.aureus by identifying proteins exclusively synthesized during the exposure to stress. Firstly, the high resolution 2-D protein gel electrophoresis technique combined with MALDI-TOF-MS and a DNA array approach were used to investigate the cellular response of S.aureus to heat stress. A switch from normal growth temperature to high temperature condition revealed complex changes in the protein expression pattern as well as the genes expression profile. The effect of puromycin stress on S.aureus cells was analyzed, using a gel-based proteomic approach and transcriptomic analyses with DNA microarrays. We compared the protein synthesis pattern as well as the transcription data of S.aureus in response to puromycin stress with that in response to heat shock. The results demonstrated that both stress conditions induced specific, overlapping and general responses. Finally, the protein expression profile of S.aureus in response to NaCl stress was analyzed with 2D gel based proteomic approach. Our proteome analyses revealed the repression of the synthesis of many enzymes belong to different metabolism pathways . In summary, the signatures for stress or starvation stimuli can be used as diagnostic tools for the prediction of the mode of action of new antibiotics or for studying the physiological state of cells grown. Expression of the respective genes under in vivo conditions could provide some ideas on the environmental signals that specifically influence the survival of S.aureus within and outside the host.
The present work consists of four parts, containing experimental data obtained from analysis of 'Bacillus subtilis' specific and general defense strategies against reactive oxygen species. In the first part, the peroxide and superoxide stress stimulons ob 'B. subtilis' were analyzed by means of transcriptomics and proteomics. Oxidative stress responsive genes were classified into two groups: the gene expression pattern was either similar after both stresses or the genes primarily responded to one stimulus. The high induction observed for members of the PerR-regulon after both stimuli supported the assumption that activation of the peroxide specific PerR-regulon represented the primary stress response after superoxide and peroxide stress. The second part focuses on protein carbonylation in 'B. subtilis' wild-type and 'sigB' mutant cells. The introduction of carbonyl groups into amino acid side chains of proteins represents one possible form of protein modification after attack by reactive oxygen species. Carbonyl groups are readily detectable and the observed amounts can thus serve as an indicator for the severity of protein damage. The resultsdemonstrate clearly that 'B. subtilis' proteins are susceptible to hydrogen peroxide (H2O2) mediated carbonylation damage. The application of low concentrations of H2O2 prior to the exposure to otherwise lethal levels of peroxide reduced markedly the degree of protein carbonylation, which also held true for glucose starved cells. Artificial preloading with general stress proteins resulted in a lower level of protein carbonylation when cells were subjected to oxidative stress, but no differences were detected between wild-type and 'sigB' mutant cells. In the third part, strains with mutations in genes encoding general stress proteins were screenedfor decreased resistance after H2O2 challenge. It was demonstrated that resistance to H2O2 challenge. It was demonstrated that resistance to H2O2 after transient heat treatment, likewise to conditions of glucose starvation, was at least partly mediated by the sB-dependent general stress response. The screening of mutants in sB-controlled genes revealed an important role for the deoxyribonucleic acid (DNA)-binding protein Dps in the context of sB-mediated resistance to oxidative stress underlining previous reports. Therefore, the experimental strategy opens a global view on the importance of DNA integrity in 'B. subtilis' under conditions of oxidative stress. The fourth part includes analysis of a 'B. subtilis' thioredoxin conditional mutant. The thiol-disulfide oxidoreductase TrxA is an essential protein in 'B. subtilis' that is suggested to be involved in maintaining the cytoplasmic thiol-disulfide state even under conditions of oxidative stress. To investigate the physiological role of TrxA, growth experiments and two-dimensional gel electrophoresis were carried out with exponentially growing cells that were depleted of TrxA. The observations indicate that TrxA essentially involved in the re-reduction of phosphoadenosyl phosphosulfate reductase CysH within the sulfate assimilation pathway of 'B. subtilis'.
This work focuses the glycoprotein H of PrV which was analysed by structure-based functional analyses by targeted site-directed mutagenesis. Disulfid bridges were introduced at specific sites and the effects on the fusion mechanism investigated. A revertant was obtained and characterised during the studies, as well as chimeric glycoprotein H proteins were constructed, combining the different domains of the glycoproteins Hs of PrV and HSV1.
Non-alcoholic fatty liver disease (NAFLD) is gaining in importance and is linked to obesity.
Especially, the development of fibrosis and portal hypertension in NAFLD patients requires treatment.
Transgenic TGR(mREN2)27 rats overexpressing mouse renin spontaneously develop NAFLD with
portal hypertension but without obesity. This study investigated the additional role of obesity in this
model on the development of portal hypertension and fibrosis. Obesity was induced in twelve-week
old TGR(mREN2)27 rats after receiving Western diet (WD) for two or four weeks. Liver fibrosis
was assessed using standard techniques. Hepatic expression of transforming growth factor-β1
(TGF-β1), collagen type Iα1, α-smooth muscle actin, and the macrophage markers Emr1, as well as
the chemoattractant Ccl2, interleukin-1β (IL1β) and tumor necrosis factor-α (TNFα) were analyzed.
Assessment of portal and systemic hemodynamics was performed using the colored microsphere
technique. As expected, WD induced obesity and liver fibrosis as confirmed by Sirius Red and Oil Red
O staining. The expression of the monocyte-macrophage markers, Emr1, Ccl2, IL1β and TNFα were
increased during feeding of WD, indicating infiltration of macrophages into the liver, even though this
increase was statistically not significant for the EGF module-containing mucin-like receptor (Emr1)
mRNA expression levels. Of note, portal pressure increased with the duration of WD compared
to animals that received a normal chow. Besides obesity, WD feeding increased systemic vascular
resistance reflecting systemic endothelial and splanchnic vascular dysfunction. We conclude that
transgenic TGR(mREN2)27 rats are a suitable model to investigate NAFLD development with liver
fibrosis and portal hypertension. Tendency towards elevated expression of Emr1 is associated with
macrophage activity point to a significant role of macrophages in NAFLD pathogenesis, probably
due to a shift of the renin–angiotensin system towards a higher activation of the classical pathway.The hepatic injury induced by WD in TGR(mREN2)27 rats is suitable to evaluate different stages of
fibrosis and portal hypertension in NAFLD with obesity