TY - THES A1 - König, Jochen T1 - Tex aus Bordetella pertussis definiert eine neue Familie von Nukleinsäure-Bindeproteinen N2 - Das Tex Protein aus Bordetella pertussis definiert eine neue Familie hoch konservierter Proteine in Eubakterien. Ursprünglich wurde das tex Gen aufgrund seines Einflusses auf die Toxinexpression in bestimmten regulatorischen Mutanten von B. pertussis gefunden (Fuchs et al. (1996), J Bacteriol 178, 4445-52). Wie hier gezeigt wird, sind Leserahmen für entsprechende Proteine bei den Eubakterien ubiquitär und mehrheitlich zu über 69 Prozent konserviert. Eine Ausnahme bilden einige wenige Taxa mit bekanntermaßen reduzierten Genomen, bei denen das Gen wahrscheinlich verloren gegangen ist, wie zum Beispiel verschiedene Mycoplasma spp. oder der obligate Blattlaus- (Aphiden-) Symbiont Buchnera aphidicola. In Eukaryonten und Archaeen konnte ein zu tex homologes Gen bisher nicht gefunden werden. Die Funktion von Tex in der Bakterienzelle ist unklar. Während das Gen in B. pertussis essenziell ist und auch nicht überexprimiert werden kann, sind Deletionsmutanten in Neisseria meningitidis und Escherichia coli phänotypisch nicht von den entsprechenden Wildtypen unterscheidbar. Ausgiebige Wachstumsstudien mit einer E. coli tex-Mutante unter verschiedenen Wachstums- und Stressbedingungen ergaben ebenfalls keinen Hinweis auf eine Bedeutung von Tex, die die außerordentliche Konservierung des Proteins erklären könnte. Das Protein zeigt in seinem N-Terminus ausgeprägte Ähnlichkeit mit dem Mannitol-Repressor (MtlR) von Escherichia coli und besitzt eine C-terminale S1-Domäne. Da die meisten der Proteine mit S1-Domänen als RNA-bindende Proteine gelten, wurde die Fähigkeit von Tex untersucht, mit Nukleinsäuren zu interagieren. In Festphasen-Bindeassays mit an Magnetkügelchen immobilisiertem Tex Protein aus E. coli konnte eine spezifische Bindung an RNA-Gesamtpräparationen gezeigt werden. DNA wurde hingegen nicht gebunden. Durch Verkürzung des N-Terminus geht die präferenzielle Bindung an RNA jedoch verloren und die Bindung von DNA erfolgt mit der gleichen Effizienz wie die von RNA. Festphasen-Bindeassays wurden weiterhin dazu benutzt, mögliche spezifische Interaktionspartner von Tex aus RNA-Gesamtpräparationen zu finden. Tatsächlich konnten über diesen Ansatz die regulatorische RNA CsrB und die ribosomale 16S RNA als spezifische Liganden isoliert werden. Über die biologische Relevanz dieser Interaktion kann zum gegenwärtigen Zeitpunkt allerdings noch keine Aussage gemacht werden. N2 - The Bordetella pertussis Tex protein defines a new family of highly conserved eubacterial proteins. The tex gene was originally found due to its negative influence on toxin expression when over-expressed slightly in certain regulatory mutants of B. pertussis (Fuchs et al. (1996), J Bacteriol 178, 4445-52). As shown in this work apparently homologous reading frames are ubiquitous within the Eubacteria. The majority of these mostly putative proteins are more than 69 per cent conserved. Only some of the genomes of some obligate intracellular pathogens, e. g. various Mycoplasma ssp., or the aphid symbiont Buchnera aphidicola known for their reduced gene numbers were found to lack a tex gene and probably have lost it during phylogeny. The actual function of Tex within the bacterial cell is as yet mysterious as the gene can neither be deleted nor can it be highly over-expressed in B. pertussis. However, deletion mutants in Neisseria gonorrhoeae and Escherichia coli do not show any phenotype different to the respective wild type. Extensive growth studies on an E. coli tex-mutant did not reveal any clue to the reason for the extraordinary conservation of the protein. The N-terminus of Tex shows extensive similarity to the mannitol repressor (MtlR) of E. coli whereas the C-terminus contains an S1 domain. Because most S1 domain containing proteins have been shown to bind RNA, the capacity of Tex to interact with nucleic acids was investigated. In solid phase binding assays with purified Tex protein from E. coli immobilized to magnetic beads the protein showed specific binding of RNA but not DNA. NÓterminal deletions of different length abolished this preference for RNA and both types of nucleic acid bound equally well. Again a solid phase binding assay was used to enrich for specific ligands of Tex from total cellular RNA preparations. This approach identified the regulatory CsrB RNA and ribosomal 16S RNA as preferential binding targets. However, it is not yet possible to comment on the biological relevance of these findings. KW - Bordetella pertussis KW - Nucleinsäuren KW - Bindeproteine KW - tex KW - Bordetella pertussis KW - Bindeprotein Y1 - 2001 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-1601 ER - TY - JOUR A1 - König, Julia A1 - Guerreiro, Marco Alexandre A1 - Peršoh, Derek A1 - Begerow, Dominik A1 - Krauss, Jochen T1 - Knowing your neighbourhood - the effects of Epichloë endophytes on foliar fungal assemblages in perennial ryegrass in dependence of season and land-use intensity JF - PeerJ N2 - Epichloë endophytes associated with cool-season grass species can protect their hosts from herbivory and can suppress mycorrhizal colonization of the hosts’ roots. However, little is known about whether or not Epichloë endophyte infection can also change the foliar fungal assemblages of the host. We tested 52 grassland study sites along a land-use intensity gradient in three study regions over two seasons (spring vs. summer) to determine whether Epichloë infection of the host grass Lolium perenne changes the fungal community structure in leaves. Foliar fungal communities were assessed by Next Generation Sequencing of the ITS rRNA gene region. Fungal community structure was strongly affected by study region and season in our study, while land-use intensity and infection with Epichloë endophytes had no significant effects. We conclude that effects on non-systemic endophytes resulting from land use practices and Epichloë infection reported in other studies were masked by local and seasonal variability in this study’s grassland sites. KW - endophytic fungi KW - symbiosis KW - Lolium perenne KW - land use KW - fungus-plant interaction KW - foliar fungal community KW - Epichloë Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-176814 VL - 6 IS - e4660 ER - TY - JOUR A1 - Sivarajan, Rinu A1 - Oberwinkler, Heike A1 - Roll, Valeria A1 - König, Eva-Maria A1 - Steinke, Maria A1 - Bodem, Jochen T1 - A defined anthocyanin mixture sourced from bilberry and black currant inhibits Measles virus and various herpesviruses JF - BMC Complementary Medicine and Therapies N2 - Background Anthocyanin-containing plant extracts and carotenoids, such as astaxanthin, have been well-known for their antiviral and anti-inflammatory activity, respectively. We hypothesised that a mixture of Ribes nigrum L. (Grossulariaceae) (common name black currant (BC)) and Vaccinium myrtillus L. (Ericaceae) (common name bilberry (BL)) extracts (BC/BL) with standardised anthocyanin content as well as single plant extracts interfered with the replication of Measles virus and Herpesviruses in vitro. Methods We treated cell cultures with BC/BL or defined single plant extracts, purified anthocyanins and astaxanthin in different concentrations and subsequently infected the cultures with the Measles virus (wild-type or vaccine strain Edmonston), Herpesvirus 1 or 8, or murine Cytomegalovirus. Then, we analysed the number of infected cells and viral infectivity and compared the data to non-treated controls. Results The BC/BL extract inhibited wild-type Measles virus replication, syncytia formation and cell-to-cell spread. This suppression was dependent on the wild-type virus-receptor-interaction since the Measles vaccine strain was unaffected by BC/BL treatment. Furthermore, the evidence was provided that the delphinidin-3-rutinoside chloride, a component of BC/BL, and purified astaxanthin, were effective anti-Measles virus compounds. Human Herpesvirus 1 and murine Cytomegalovirus replication was inhibited by BC/BL, single bilberry or black currant extracts, and the BC/BL component delphinidin-3-glucoside chloride. Additionally, we observed that BC/BL seemed to act synergistically with aciclovir. Moreover, BC/BL, the single bilberry and black currant extracts, and the BC/BL components delphinidin-3-glucoside chloride, cyanidin-3-glucoside, delphinidin-3-rutinoside chloride, and petunidin-3-galactoside inhibited human Herpesvirus 8 replication. Conclusions Our data indicate that Measles viruses and Herpesviruses are differentially susceptible to a specific BC/BL mixture, single plant extracts, purified anthocyanins and astaxanthin. These compounds might be used in the prevention of viral diseases and in addition to direct-acting antivirals, such as aciclovir. KW - anthocyanin KW - astaxanthin KW - bilberry KW - black currant KW - herpesvirus KW - measels virus Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-301423 VL - 22 ER - TY - JOUR A1 - Geiger, Nina A1 - König, Eva-Maria A1 - Oberwinkler, Heike A1 - Roll, Valeria A1 - Diesendorf, Viktoria A1 - Fähr, Sofie A1 - Obernolte, Helena A1 - Sewald, Katherina A1 - Wronski, Sabine A1 - Steinke, Maria A1 - Bodem, Jochen T1 - Acetylsalicylic acid and salicylic acid inhibit SARS-CoV-2 replication in precision-cut lung slices JF - Vaccines N2 - Aspirin, with its active compound acetylsalicylic acid (ASA), shows antiviral activity against rhino- and influenza viruses at high concentrations. We sought to investigate whether ASA and its metabolite salicylic acid (SA) inhibit SARS-CoV-2 since it might use similar pathways to influenza viruses. The compound-treated cells were infected with SARS-CoV-2. Viral replication was analysed by RTqPCR. The compounds suppressed SARS-CoV-2 replication in cell culture cells and a patient-near replication system using human precision-cut lung slices by two orders of magnitude. While the compounds did not interfere with viral entry, it led to lower viral RNA expression after 24 h, indicating that post-entry pathways were inhibited by the compounds. KW - acetylsalicylic acid KW - salicylic acid KW - antiviral activity KW - aspirin KW - SARS-CoV-2 KW - precision-cut lung slices Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-289885 SN - 2076-393X VL - 10 IS - 10 ER - TY - JOUR A1 - König, Sebastian A1 - Krauss, Jochen A1 - Keller, Alexander A1 - Bofinger, Lukas A1 - Steffan‐Dewenter, Ingolf T1 - Phylogenetic relatedness of food plants reveals highest insect herbivore specialization at intermediate temperatures along a broad climatic gradient JF - Global Change Biology N2 - The composition and richness of herbivore and plant assemblages change along climatic gradients, but knowledge about associated shifts in specialization is scarce and lacks controlling for the abundance and phylogeny of interaction partners. Thus, we aimed to test whether the specialization of phytophagous insects in insect‐plant interaction networks decreases toward cold habitats as predicted by the ‘altitude niche‐breadth hypothesis’ to forecast possible consequences of interaction rewiring under climate change. We used a non‐invasive, standardized metabarcoding approach to reconstruct dietary relationships of Orthoptera species as a major insect herbivore taxon along a broad temperature gradient (~12°C) in Southern Germany. Based on Orthoptera surveys, feeding observations, collection of fecal pellets from >3,000 individuals of 54 species, and parallel vegetation surveys on 41 grassland sites, we quantified plant resource availability and its use by herbivores. Herbivore assemblages were richer in species and individuals at sites with high summer temperatures, while plant richness peaked at intermediate temperatures. Corresponding interaction networks were most specialized in warm habitats. Considering phylogenetic relationships of plant resources, however, the specialization pattern was not linear but peaked at intermediate temperatures, mediated by herbivores feeding on a narrow range of phylogenetically related resources. Our study provides empirical evidence of resource specialization of insect herbivores along a climatic gradient, demonstrating that resource phylogeny, availability, and temperature interactively shape the specialization of herbivore assemblages. Instead of low specialization levels only in cold, harsh habitats, our results suggest increased generalist feeding due to intraspecific changes and compositional differences at both ends of the microclimatic gradient. We conclude that this nonlinear change of phylogeny‐based resource specialization questions predictions derived from the ‘altitude‐niche breadth hypothesis’ and highlights the currently limited understanding of how plant‐herbivore interactions will change under future climatic conditions. KW - Alps KW - diet breadth KW - distance‐based specialization index KW - herbivores KW - interaction networks KW - metabarcoding KW - microclimate KW - Orthoptera KW - plant richness KW - temperature gradient Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-276441 VL - 28 IS - 13 SP - 4027 EP - 4040 ER - TY - JOUR A1 - Geiger, Nina A1 - Diesendorf, Viktoria A1 - Roll, Valeria A1 - König, Eva-Maria A1 - Obernolte, Helena A1 - Sewald, Katherina A1 - Breidenbach, Julian A1 - Pillaiyar, Thanigaimalai A1 - Gütschow, Michael A1 - Müller, Christa E. A1 - Bodem, Jochen T1 - Cell type-specific anti-viral effects of novel SARS-CoV-2 main protease inhibitors JF - International Journal of Molecular Sciences N2 - Recently, we have described novel pyridyl indole esters and peptidomimetics as potent inhibitors of the severe acute respiratory syndrome coronavirus type 2 (SARS-CoV-2) main protease. Here, we analysed the impact of these compounds on viral replication. It has been shown that some antivirals against SARS-CoV-2 act in a cell line-specific way. Thus, the compounds were tested in Vero, Huh-7, and Calu-3 cells. We showed that the protease inhibitors at 30 µM suppress viral replication by up to 5 orders of magnitude in Huh-7 cells, while in Calu-3 cells, suppression by 2 orders of magnitude was achieved. Three pyridin-3-yl indole-carboxylates inhibited viral replication in all cell lines, indicating that they might repress viral replication in human tissue as well. Thus, we investigated three compounds in human precision-cut lung slices and observed donor-dependent antiviral activity in this patient-near system. Our results provide evidence that even direct-acting antivirals may act in a cell line-specific manner. KW - SARS-CoV-2 KW - protease inhibitors KW - cell line specificity pyridyl indole carboxylates KW - azapeptide nitriles KW - peptidomimetics Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-304034 SN - 1422-0067 VL - 24 IS - 4 ER - TY - JOUR A1 - Geiger, Nina A1 - Kersting, Louise A1 - Schlegel, Jan A1 - Stelz, Linda A1 - Fähr, Sofie A1 - Diesendorf, Viktoria A1 - Roll, Valeria A1 - Sostmann, Marie A1 - König, Eva-Maria A1 - Reinhard, Sebastian A1 - Brenner, Daniela A1 - Schneider-Schaulies, Sibylle A1 - Sauer, Markus A1 - Seibel, Jürgen A1 - Bodem, Jochen T1 - The acid ceramidase is a SARS-CoV-2 host factor JF - Cells N2 - SARS-CoV-2 variants such as the delta or omicron variants, with higher transmission rates, accelerated the global COVID-19 pandemic. Thus, novel therapeutic strategies need to be deployed. The inhibition of acid sphingomyelinase (ASM), interfering with viral entry by fluoxetine was reported. Here, we described the acid ceramidase as an additional target of fluoxetine. To discover these effects, we synthesized an ASM-independent fluoxetine derivative, AKS466. High-resolution SARS-CoV-2–RNA FISH and RTqPCR analyses demonstrate that AKS466 down-regulates viral gene expression. It is shown that SARS-CoV-2 deacidifies the lysosomal pH using the ORF3 protein. However, treatment with AKS488 or fluoxetine lowers the lysosomal pH. Our biochemical results show that AKS466 localizes to the endo-lysosomal replication compartments of infected cells, and demonstrate the enrichment of the viral genomic, minus-stranded RNA and mRNAs there. Both fluoxetine and AKS466 inhibit the acid ceramidase activity, cause endo-lysosomal ceramide elevation, and interfere with viral replication. Furthermore, Ceranib-2, a specific acid ceramidase inhibitor, reduces SARS-CoV-2 replication and, most importantly, the exogenous supplementation of C6-ceramide interferes with viral replication. These results support the hypotheses that the acid ceramidase is a SARS-CoV-2 host factor. KW - SARS-CoV-2 KW - ceramides KW - ceramidase KW - fluoxetine KW - acid sphingomyelinase Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-286105 SN - 2073-4409 VL - 11 IS - 16 ER -