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Fusobacterium nucleatum is an emerging cancer-associated bacterium belonging to the Fusobacteriota phylum, which is evolutionary distant from all model bacteria. Recent analysis generated global fusobacterial RNA maps, which enabled the discovery of 24 small noncoding RNAs (sRNAs) in F. nucleatum. Notably, the σE-dependent sRNA FoxI and FoxJ act as a posttranscriptional regulator of several cell envelope proteins. The σE-dependent sRNAs in Escherichia coli and Salmonella require the RNA chaperone Hfq for their functions. Intriguingly, F. nucleatum seems to have no homologs of the three common RNA-binding proteins (RBPs) CsrA, Hfq and ProQ. However, it remains unclear if other families of RBPs act in concert with FoxI, FoxJ and other fusobacterial sRNAs.
This work has successfully established a 14-mer capture tagged-sRNA affinity purification procedure initially using 6S RNA as a proof-of-concept. Applying this method to 19 different F. nucleatum sRNAs led to a comprehensive mapping of sRNA-binding proteins in this bacterium. This screen identified a total of 75 proteins significantly enriched across all sRNAs and prominent in ribosomal proteins, uncharacterized proteins and enzymes associated with metabolism. This work further focused on the homologs of two KH domain proteins KhpA and KhpB, which were recently recognized as global RBPs in various Gram-positive bacteria such as Streptococcus pneumoniae, Clostridioides difficile, and Enterococcus faecalis.
Comparative analyses revealed conserved domain composition and gene synteny of KhpA and KhpB across F. nucleatum, S. pneumoniae, C. difficle and E. faecalis, indicating conserved roles of these proteins in bacteria. Further protein-protein interaction assays and global RNA targets profiling demonstrated that KhpA and KhpB form dimers and act together as broad RBPs, binding to sRNAs, mRNAs and tRNAs in F. nucleatum. Further functional characterizations unveiled that KhpA/B are required for the growth of F. nucleatum under nutrient limitation conditions and impact cell morphology. Additionally, the two RBPs also influence global gene expression in F. nucleatum affecting various bacterial physiological processes, including ethanolamine utilization.
In summary, this work established a sRNA-centric approach for screening sRNA-binding proteins in F. nucleatum. Further, the assay could be applied in other non-model organisms and is feasible to screen multiple sRNA baits in parallel for sRNA-interactors. By applying this procedure to nearly all known fusobacterial sRNAs, this work generated an extensive map of sRNA-interacting proteins in F. nucleatum. Molecular and genetic studies identified that KhpA/B act as major RBPs and gene regulators in F. nucleatum, representing important first steps in elucidating key players of post-transcriptional control at the root of the bacterial phylogenetic tree.
Opioid receptors (ORs) are among the most intensively studied members of the G protein-coupled receptor (GPCR) family due to their important role in pain management and their involvement in psychological and neurological disorders. However, currently available opioid drugs exhibit both serious drawbacks, such as addiction, and life-threatening side effects, such as respiratory depression. Contrary to the classic monomeric model, indirect evidence suggests that ORs might form dimers, which could be endowed with a distinct pharmacological profile, and, thus, be exploited to develop innovative drugs. However, direct evidence for the spontaneous formation of OR dimers in living cells under physiological condition are missing. The focus of this thesis was the design, synthesis and characterization of new, highly subtype-selective OR fluorescent ligands to be used as tools for state-of-the-art microscopy methods, such as single molecule microscopy (SMM), in heterologous cells and potentially in native tissue, in order to investigate OR organization and mobility on the surface of intact, living cells, at low/physiological expression levels.
The μOR is the OR subtype which plays the most critical role in pain modulation, while mediating the effects of the most powerful analgesic drugs. Also, it is the OR subtype which is mostly responsible for the major adverse effects of the currently marketed opioid drugs. We aimed to develop a new μOR-selective fluorescent ligand with a potential irreversible binding mode. Although the approach was in principle successful, i.e. the labelled cells were visible and distinguishable; this initial attempt was not suitable for SMM due to the ligands’ poor selectivity and affinity as well as due to its high background noise. A second generation of the fluorescent ligand was designed; however the synthesis and characterization are part of another doctoral thesis.
Lately, δOR has received attention as a promising drug target, due to its distinct pharmacological profile which features low abuse liability and lack of physical dependence. In addition, δOR expression has been associated with cancer regulation in the periphery, thus further highlighting the interest of imaging tools for this receptor. In this thesis, the development and characterization of two new δOR-selective fluorescent probes with excellent optical properties, based on the well-studied ligand naltrindole (NTI) is presented. Their application in SMM studies is currently underway at the group of Prof. Dr. Davide Calebiro at the University of Birmingham.
The κOR is a subtype which has also emerged as a drug target due to its low abuse potential. Despite a growing interest in this receptor, κOR-selective fluorescent probes have been particularly scarce in literature. Herein, the design, synthesis and characterization of the first reported set of fluorescent κOR-selective probes with antagonistic properties, based on the established ligand 5’-guanidinonaltrindole (5’-GNTI) is presented. Two of these were employed for SMM experiments to investigate κOR homodimerization, localization and trafficking. Our findings do not support homodimerization of the κOR-bound probe complexes, while showing that the majority of them follow a normal Brownian diffusion on the cell surface.
The inclusive production rates of isolated, prompt photons in p Pb collisions at root s(NN) = 8.16 TeV are studied with the ATLAS detector at the Large Hadron Collider using a dataset with an integrated luminosity of 165 nb(-1) recorded in 2016. The cross-section and nuclear modification factor R-p pb are measured as a function of photon transverse energy from 20 GeV to 550 GeV and in three nucleon-nucleon centre-of-mass pseudorapidity regions, (-2.83, -2.02), (-1.84, 0.91), and (1.09, 1.90). The cross-section and R-p pb values are compared with the results of a next-to-leading-order perturbative QCD calculation, with and without nuclear parton distribution function modifications, and with expectations based on a model of the energy loss of partons prior to the hard scattering. The data disfavour a large amount of energy loss and provide new constraints on the parton densities in nuclei. (C) 2019 The Author. Published by Elsevier B.V.
The SEED project is developing ePortfolios for teaching at the Julius-Maximilians-Universität Würzburg. ePortfolios make it possible to further develop teaching and learning in a competence-oriented manner and to strengthen the individual reflection aspect of academic studies to support training professional skills. A total of seven use cases were developed. They provide examples of how ePortfolios can be used in university teaching. Four exam variants help to illustrate both subject-specific and reflective components when examining using ePortfolios.
The field of photopharmacology has attracted considerable attention due to applying the spatial and temporal precision of light to pharmacological systems. Photoswitchable biologically active compounds have proven useful in the field of G protein-coupled receptors (GPCRs), which are of tremendous therapeutic relevance. Generally, the pharmacology of GPCRs is complex, perhaps even more complex than originally thought. Suitable tools are required to dissect the different signalling pathways and mechanisms and to unravel how they are connected in a holistic image. This is reflected in the enormous scientific interest in CB2R, as the neuroprotective and immunomodulatory effects attributed to CB2R agonists have not yet translated into effective therapeutics. This work focused on the development of a novel photoswitchable scaffold based on the privileged structure of benzimidazole and its application in photoswitchable CB2R ligands as photopharmacological tools for studying the CB2R.
The visible-light photoswitchable ligand 10d enables the investigation of CB2R activation with regard to βarr2 bias, exhibiting a unique pharmacological profile as a “cis-on” affinity switch at receptor level and as a “trans-on” efficacy-switch in βarr2-mediated receptor internalization. The novel photoswitchable scaffold developed in this work further serves as a guide for the development of novel photoswitchable GPCR ligands based on the privileged structure of benzimidazole. To obtain a different tool compound for studying CB2R activation and signalling mechanisms, a previously reported putatively dualsteric CB2R ligand was rendered photoswitchable, by linking the orthosteric agonist to a CB2R-selective PAM via photoswitchable azobenzene. Compound 27-para exhibits a desirable “cis-on” behaviour across all investigated assays with >10-fold higher potency compared to its trans-isomer and can be used as an efficacy-switch employing specific concentrations.
Cancer is one of the leading causes of death worldwide. Toxic contaminants in human food or medicinal products, such as substances like pyrrolizidine alkaloids (PAs), have been thought to contribute to cancer incidence. PAs are found in many plant species as secondary metabolites, and they may affect humans through contaminated food sources, herbal medicines, and dietary supplements. Hundreds of compounds belonging to PAs have been identified, differing in their chemical structures, either in their necine base moiety or esterification at their necic acid moiety. PAs undergo hepatic metabolism, and after this process, they can induce hepatotoxicity, genotoxicity, and carcinogenicity. However, the mechanism of inducing genotoxicity and carcinogenicity is still unclear and warrants further investigation.
Therefore, the present study aims to investigate the mechanism of genotoxicity induced by selected PAs with different chemical structures in in vitro systems. Primarily, human hepatoma HepG2 cells were utilized, and in co-culture, metabolically active HepG2 cells were combined with non-metabolically active human cervical HeLa H2B-GFP cells.
First, the genotoxicity of the PAs europine, lycopsamine, retrorsine, riddelliine, seneciphylline, echimidine, and lasiocarpine was investigated in the cytokinesis-block micronucleus (CBMN) assay. All seven selected PAs caused the formation of micronuclei in a dose-dependent manner, with the maximal increase of micronucleus formation ranging from 1.64 to 2.0 fold. The lowest concentrations at which significant induction of micronuclei was found were 3.2 µM for lasiocarpine and riddelliine, 32 µM for retrorsine and echimidine, and 100 µM for seneciphylline, europine, and lycopsamine. These results confirmed previously published potency rankings in the micronucleus assay.
The same PAs, with the exception of seneciphylline, were also investigated in a crosslink-modified comet assay, and reduced tail formation after hydrogen peroxide treatment was found in all diester-type PAs. Meanwhile, an equimolar concentration of the monoesters europine and lycopsamine did not significantly reduce DNA migration. Thus, the crosslinking activity was related to the ester type.
Next, the role of metabolic enzymes and membrane transporters in PA-induced genotoxicity was assessed. Ketoconazole (CYP 450-3A4 inhibitor) prevented lasiocarpine-induced micronucleus formation completely, while furafylline (CYP 450-1A2 inhibitor) reduced lasiocarpine-induced micronucleus formation, but did not abolish it completely. This implies that the CYP 450 enzymes play an important role in PA-induced genotoxicity.
Carboxylesterase 2 enzyme (CES 2) is commonly known to be involved in the detoxification of xenobiotics. Loperamide (CES 2 inhibitor) yielded an increased formation of lasiocarpine-induced micronuclei, revealing a possible role of CES-mediated detoxification in the genotoxicity of lasiocarpine. Also, intracellular glutathione (GSH) plays an important role in the detoxification of xenobiotics or toxins in the cells. Cells which had been pretreated with L-buthionine sulfoximine (BSO) to reduce GSH content were significantly more sensitive for the induction of micronucleus formation by lasiocarpine revealing the importance of GSH in PA-induced genotoxicity.
Quinidine (Q) and nelfinavir (NFR) are OCT1 and OATP1B1 influx transporter inhibitors, respectively, which reduced micronucleus induction by lasiocarpine (only quinidine significantly), but not completely, pointing to a relevance of OCT1 for PA uptake in HepG2 cells. Verapamil (V) and benzbromarone (Bz) are MDR1 and MRP2 efflux transporter inhibitors, respectively, and they caused a slightly increased micronucleus induction by lasiocarpine (significant only for benzbromarone) thus, revealing the role of efflux transporters in PA-induced genotoxicity.
The mechanistic approach to PA-induced genotoxicity was further studied based on oxidative stress via the formation of reactive oxygen species (ROS) in HepG2 cells. Overproduction of ROS can cross-link cellular macromolecules such as DNA, leading to genomic damage. An equimolar concentration of 10 µM of lasiocarpine (open-diester PA), riddelliine (cyclic-diester PA), and europine (monoester) significantly induced ROS production, with the highest ROS generation observed after lasiocarpine treatment, followed by riddelliine and then europine. No significant increase in ROS production was found with lycopsamine (10 µM; monoester PA), even at a higher concentration (320 µM). The generation of ROS by these PAs was further analyzed for confirmation by using 5 mM of the thiol radical scavenger antioxidant N-acetyl cysteine (NAC) combined with lasiocarpine, riddelliine, or europine. This analysis yielded a significant decrease in ROS after combining NAC with lasiocarpine, riddelliine, and europine. In addition, lasiocarpine, riddelliine, and europine induced a loss of mitochondrial membrane potential, pointing to mitochondria as the source of ROS generation.
In vivo, hepatic sinusoidal epithelial cells (HSECs) are known to be damaged first by PAs after hepatic metabolization, but HSECs themselves do not express the required metabolic enzymes for activation of PAs. To mimic this situation, HepG2 cells were used to metabolically activate PA in a co-culture with HeLa H2B-GFP cells as non-metabolically active neighbours. Due to the green fluorescent GFP label the HeLa cells could be identified easily based in the co-culture. The PAs europine, riddelliine and lasiocarpine induced micronucleus formation in HepG2 cells, and in HeLa H2B-GFP cells co-cultured with HepG2 cells, but not in HeLa H2B-GFP cells cultured alone. Metabolic inhibition of CYP 450 enzymes with ketoconazole abrogated micronucleus formation induced by the same PAs tested in the co-culture. The efflux transporter inhibitors verapamil and benzbromarone reduced the micronucleus formation in the co-culture. Furthermore, mitotic disturbances as an additional genotoxic mechanism of action were observed in HepG2 cells and in HeLa H2B-GFP cells co-cultured with HepG2 cells, but not in HeLa H2B-GFP cells cultured alone. Overall, we were able to show that PAs were activated by HepG2 cells and the metabolites induced genomic damage in co-cultured non-metabolically active green HeLa cells.
Finally, in HepG2 cells as well as the co-culture, combinations of PAs lasiocarpine and riddelliine favoured an additive effect rather than synergism. Thus, this study therefore provides support that the assumption of dose-addition can be applied in the characterization of the genotoxicity risk of PAs present in a mixture.
p97 uses the energy of ATP hydrolysis to unfold and thereby segregate proteins. It is involved in various cellular processes such as proteasomal degradation, DNA damage repair, autophagy, and endo-lysosomal trafficking. The specificity for these processes is controlled by more than 30 regulatory cofactors.
Interactions of p97 with cofactors and target proteins are known to be highly dynamic and transient. To identify new interaction partners and to uncover novel cellular functions of p97, the interactome of endogenous p97 was determined by using in cellulo crosslinking followed by immunoprecipitation and mass spectrometry. Myoferlin (MYOF) was identified as a novel interactor of p97 and the interaction was validated in reciprocal immunoprecipitation experiments for different cell lines.
The ferlin family member MYOF is a tail-anchored membrane protein containing multiple C2 domains. MYOF is involved in various membrane repair and trafficking processes such as the endocytic recycling of cell surface receptors. The MYOF interactome was determined by mass spectrometry. Among others, the p97 cofactor PLAA, CD71 and Rab14 were identified as common interactors of p97 and MYOF. Immunoprecipitation experiments with PLAA KO cells revealed that the interaction between MYOF and p97 depends on PLAA. Immunofluorescence microscopy showed a co-localization of MYOF with Rab14 and Rab11, which are both involved in endocytic recycling pathways. Furthermore, immunofluoroscence experiments revealed that MYOF and the p97 cofactor PLAA are localized to Rab14- and Rab5-positive endosomal compartments.
Using p97 inhibitors and p97 trapping mutants, the presence of p97 at MYOF-positive and Rab14-positive structures could be demonstrated. Consistent with this finding, the endocytic recycling of transferrin was delayed upon inhibition of p97. Taken together, this work identified MYOF as a novel interactor of p97 and suggests a role for p97 in the recycling of endocytic cargo.
A search for new phenomena in events with two same- charge leptons or three leptons and jets identi fi ed as originating from b - quarks in a data sample of 36.1 fb of pp collisions at ps = 13TeV recorded by the ATLAS detector at the Large Hadron Collider is reported. No signi fi cant excess is found and limits are set on vector- like quark, fourtop- quark, and same- sign top- quark pair production. The observed ( expected) 95% CL mass limits for a vector- like T - and B - quark singlet are mT > 0 : 98 ( 0 : 99) TeV and mB > 1 : 00 ( 1 : 01) TeV respectively. Limits on the production of the vector- like T5=3 - quark are also derived considering both pair and single production; in the former case the lower limit on the mass of the T5=3 - quark is ( expected to be) 1.19 ( 1.21) TeV. The Standard Model fourtop- quark production cross- section upper limit is ( expected to be) 69 ( 29) fb. Constraints are also set on exotic four- top- quark production models. Finally, limits are set on samesign top- quark pair production. The upper limit on uu ! tt production is ( expected to be) 89 ( 59) fb for a mediator mass of 1TeV, and a dark- matter interpretation is also derived, excluding a mediator of 3TeV with a dark- sector coupling of 1.0 and a coupling to ordinary matter above 0.31.
Invasive aspergillosis (IA) is an infectious disease caused by the fungal pathogen Aspergillus fumigatus that mainly affects immunocompromised hosts. To investigate immune cell cross-talk during infection with A. fumigatus, we co-cultured natural killer (NK) cells and dendritic cells (DC) after stimulation with whole fungal structures, components of the fungal cell wall, fungal lysate or ligands for distinct fungal receptors. Both cell types showed activation after stimulation with fungal components and were able to transfer activation signals to the counterpart not stimulated cell type. Interestingly, DCs recognized a broader spectrum of fungal components and thereby initiated NK cell activation when those did not recognize fungal structures. These experiments highlighted the supportive function of DCs in NK cell activation. Furthermore, we focused on soluble DC mediated NK cell activation and showed that DCs stimulated with the TLR2/Dectin-1 ligand zymosan could maximally stimulate the expression of CD69 on NK cells. Thus, we investigated the influence of both receptors for zymosan, Dectin-1 and TLR2, which are highly expressed on DCs but show only minimal expression on NK cells. Specific focus was laid on the question whether Dectin-1 or TLR2 signaling in DCs is important for the secretion of soluble factors leading to NK cell activation. Our results show that Dectin-1 and TLR2 are negligible for NK cell activation. We conclude that besides Dectin-1 and TLR2 other receptors on DCs are able to compensate for the missing signal.
Discovery of disease-associated autoantibodies has transformed the clinical management of a variety of neurological disorders. Detection of autoantibodies aids diagnosis and allows patient stratification resulting in treatment optimization. In the last years, a set of autoantibodies against proteins located at the node of Ranvier has been identified in patients with chronic inflammatory demyelinating polyneuropathy (CIDP). These antibodies target neurofascin, contactin1, or contactin-associated protein 1, and we propose to name CIDP patients with these antibodies collectively as seropositive. They have unique clinical characteristics that differ from seronegative CIDP. Moreover, there is compelling evidence that autoantibodies are relevant for the pathogenesis. In this article, we review the current knowledge on the characteristics of autoantibodies against the node of Ranvier proteins and their clinical relevance in CIDP. We start with a description of the structure of the node of Ranvier followed by a summary of assays used to identify seropositive patients; and then, we describe clinical features and characteristics linked to seropositivity. We review knowledge on the role of these autoantibodies for the pathogenesis with relevance for the emerging concept of nodopathy/paranodopathy and summarize the treatment implications.