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While beneficial sponge-microbe associations have received much attention in recent years, less effort has been undertaken to investigate the interactions of sponges with potentially pathogenic microorganisms. Thus, the aim of this study was to examine two selected Caribbean disease conditions, termed “Sponge Orange Band” and “Sponge White Patch”, via ecological and molecular methods. Sponge Orange Band (SOB) disease affects the prominent Caribbean barrel sponge Xestospongia muta that is counted among the high-microbial-abundance (HMA) sponges, whereas Sponge White Patch (SWP) disease affects the abundant rope sponge Amphimedon compressa that belongs to the low-microbial-abundance (LMA) sponges. I have documented for both Caribbean sponge diseases a disease progression going along with massive tissue destruction as well as loss of the characteristic microbial signatures. Even though new bacteria were shown to colonize the bleached areas, the infection trials revealed in both cases no indication for the involvement of a microbial pathogen as an etiologic agent of disease leaving us still in the dark about the cause of Sponge Orange Band as well as Sponge White Patch disease.
Replication-competent oncolytic viral therapies have shown great promise preclinically and in clinical trials for the treatment of various cancers. They are able to preferentially and selectively propagate in cancer cells, consequently destroying tumor tissue via cell lysis, while leaving noncancerous tissues unharmed. Currently, biopsy is the gold standard for monitoring of viral tumor colonization and oncolysis. This may be feasible in preclinical or early clinical trials; however, a noninvasive method facilitating ongoing monitoring of viral therapy is needed for human studies. The tracking of viral delivery could give clinicians the ability to assess the biodistribution of oncolytic viruses to ensure safety and correlation with treatment efficacy. This work centers on the construction and testing of a VACV strain, GLV-1h153, carrying the human sodium iodide symporter (hNIS) as a marker gene for non-invasive tracking of virus by imaging. Thus, this project aimed to help develop imaging techniques for use in clinical trials of oncolytic viral therapy. Further, the feasibility and effectiveness of virally induced targeted radiotherapy as an anti-cancer strategy was also investigated. hNIS is an intrinsic plasma membrane protein which mediates the active transport and concentration of iodide in the thyroid gland and some extra-thyroidal tissues. It is also one of several human genes currently being used as reporters in preclinical studies and has already been used in clinical studies for imaging viral replication in prostate cancer. hNIS gene transfer via viral vector may allow infected tumor cells to concentrate several carrier-free radionuclide probes such as Iodide-124 (124I), Iodide-131 (131I), and 99m-Technecium Pertechtenate (99mTcO4), which have long been approved for human use. hNIS also has the advantage of being of human origin thus minimizing immunogenicity, and its transporter based system allows intracellular signal amplification. GLV-1h153 was tested in pancreatic adenocarcinoma cell line PANC-1. GLV-1h153 infected, replicated within, and killed PANC-1 cells in cell culture as efficiently as GLV-1h68 and provided dose-dependent levels of hNIS transgene expression in infected cells. Immunofluorescence detected successful transport of the protein to the cell membrane prior to cell lysis, which enhanced dose and time-dependent intracellular uptake of 131I. In vivo, GLV-1h153 was as safe and effective as GLV-1h68 in regressing pancreatic cancer xenografts. Tumor infection by virus was confirmed via optical imaging and histology. GLV-1h153 further facilitated deep tissue imaging of virus replication in tumors via Iodide-124I positron emission tomography (PET) as well as 99mTcO4-mediated gamma scintigraphy. This was possible with both intratumoral and intravenous injection of the virus with radiouptake retained as long as 24 and 48 hours after radiotracer injection. PET image quantitation of radiouptake in tumors was found to correlate well with tissue radiouptake counts. Autoradiography of GLV-1h153-infected tumors revealed a need for presence of virus (visualized with green fluorescent protein expression), viable tissue, and adequate blood flow to enhance radiouptake in tumors. Dosimetric analysis of uptake in infected tumors displayed potential for therapeutic doses of radiotherapy to be delivered systemically to tumors. When GLV-1h153 was combined with 131I for treatment, a modest additive effect was seen as compared to GLV-1h153 alone. Therefore, GLV-1h153 is a promising new candidate for treating pancreatic cancer and noninvasively imaging viral therapy. These findings warrant further investigation into possible long term monitoring of viral therapy, as well as synergistic or additive effects of radioiodine combined with this novel treatment and imaging modality.
Physiological Role of Fatty Acid Desaturation in Agrobacterium-induced Arabidopsis Crown Galls
(2011)
Crown gall development is accompanied by hypoxia, drought and oxidative stress. These abiotic stress factors are known to have an impact on fatty acid (FA) desaturation. Thus, an alteration in the lipid profile of plant tumors was expected. A comprehensive lipid analysis of Arabidopsis thaliana crown galls induced by Agrobacterium tumefaciens showed an increase in the degree of FA desaturation. The poly unsaturated fatty acid (PUFA) linolenic acid (18:3) of endoplasmic reticulum (ER) derived phospholipids was especially affected. The increased levels of desaturated FAs were reflected by a strong induction of two genes encoding desaturases, FAD3 and SAD6. In contrast to FAD3, which encodes the ER membrane bound fatty acid desaturase enzyme that synthesizes 18:3 PUFAs in the ER, the function of SAD6 is unknown. The ability of SAD6 to complement the extreme dwarf growth phenotype of the ssi2-2 mutant allele suggests that SAD6 is a functional stearoyl-acyl-carrier-protein delta-9 desaturase (SAD) which catalyzes the first step in FA desaturation and forms stearic acid (18:1). Overexpression of the SAD6 gene in Arabidopsis (SAD6-OE) to a similar degree as in tumors resulted in a light-dependent chlorosis phenotype and caused a similar shift in the lipid profile towards unsaturated phospholipids. Posttranscriptional down-regulation of SAD6 overexpression by RNA reverted the chlorosis phenotype and the changes in the lipid profile, showing that SAD6 overexpression forms the unsaturated FA profile and the phenotype in SAD6-OE. The subcellular localization of the SAD6 protein in chloroplasts, which is obligatory for SAD function was demonstrated. SSI2, which encodes the major contributor to the 18:1 FA levels in Arabidopsis is down-regulated in crown galls pointing to a replacement of SSI2 function by SAD6 in the tumor. SAD6 transcripts were almost undetectable in Arabidopsis under normal growth condition, whereas under hypoxia the gene was strongly activated. In the tumor hypoxia most likely caused the very high transcription of SAD6. Hypoxia is known to limit FA desaturation and it is associated with an elevated reactive oxygen species (ROS) production which is detrimental for unsaturated FAs. Thus, up-regulation of SAD6 in the crown gall, most likely serves as an adaptive mechanism to activate desaturation under low oxygen concentrations and to maintain the levels of unsaturated FA under oxidative stress. The ER localized FAD3 most likely is responsible for the rise in 18:3 of the phospholipid class to cope with drought stress in crown galls. This hypothesis was supported by the loss of function mutant, fad3-2, which developed significantly smaller tumors as the wild type under low relative humidity.Taken together, this study suggests that the induction of SAD6 and FAD3 shapes the tumor lipid profile by increasing the levels of unsaturated FAs. Unsaturated fatty acids prepare the crown gall to cope with ongoing hypoxia, drought and oxidative stress during growth and development.
Die Laser Mikrodissektion konnte in der vorliegenden Arbeit als geeignetes Tool für Expressionsanalysen pflanzlicher Gewebe weiterentwickelt werden. Nach einer umfangreichen Optimierung der Technik und Anpassung an die jeweiligen Gegebenheiten der zu analysierenden pflanzlichen Gewebe konnten unterschiedliche physiologische Fragestellungen an verschiedenen Pflanzen bearbeitet werden. Methodische Fortschritte Bei den Arbeiten an infiltrierten Arabidopsis-Pflanzen zeigten sich die methodischen Verbesserungen besonders deutlich: i. Die Zeit der Probengenerierung konnte um 60 80 % reduziert werden, wobei gleichzeitig die Qualität und Quantität der isolierten RNA erheblich verbessert wurden. ii. Dadurch konnte auf die in Deeken et al. (2008) beschriebene Voramplifikation, die stets zum Verlust niedrig exprimierter Gene führt, verzichtet und eine deutlich größere Zahl an im Phloem exprimierten Genen identifiziert werden. iii. Dass dabei 95 % der bei Deeken et al. beschriebenen Phloem-Gene wiedergefunden wurden, zeigt die hohe Reproduzierbarkeit der LMPC-Technik, die durch die Optimierung erreicht werden konnte. Pathogenantwort im Arabidopsis-Phloem iv. Die Laser Mikrodissektion konnte entsprechend i iii eingesetzt werden, um Phloem-Proben von Arabidopsis-Blütenstielen nach Pathogenbefall zu sammeln. v. Bei der Suche nach entsprechenden Phloem-mobilen Signalen, die in systemischen Geweben zur Auslösung der SAR führen, zeigte sich, dass im Phloem der Arabidopsis-Blütenstiele v. a. der Jasmonsäureweg angeschaltet wird. SAR-Marker fanden sich kaum induziert. vi. Im Vergleich der Mikroarray- und qPCR-Ergebnisse wird deutlich, dass mittels LMPC die Vorgänge im Phloem deutlich besser aufgelöst werden können, da die Untersuchungen an kompletten Blütenstielen deutliche Abweichungen gegenüber den Phloem-Arrays aufwiesen. Die Analysen der Mikroarrays sowie die zugehörigen Zeitreihenexperimente sind noch nicht abgeschlossen. Pappel-Holzstrahlen als Schaltstelle der saisonalen Umsteuerung vii. Die Laser Mikrodissektion kann alternativ auch in einem inversen Ansatz angewendet werden. viii. Über auf diese Weise angereicherte Holzstrahlen der Pappel war es möglich, tiefgreifende Einblicke in die Saisonalität der Pappel zu erlangen. ix. Zusammen mit Metabolit- und qPCR-Analysen lieferten diese Ergebnisse einen zeitlichen Ablaufplan der zugrundeliegenden physiologischen Prozesse, insbesondere bei der Umsteuerung von der Dormanz zur Wiederaufnahme des aktiven Wachstums im Frühjahr.
Four new tetromycin derivatives, tetromycins 1-4 and a previously known one, tetromycin B (5) were isolated from Streptomyces axinellae Pol001(T) cultivated from the Mediterranean sponge Axinella polypoides. Structures were assigned using extensive 1D and 2D NMR spectroscopy as well as HRESIMS analysis. The compounds were tested for antiparasitic activities against Leishmania major and Trypanosoma brucei, and for protease inhibition against several cysteine proteases such as falcipain, rhodesain, cathepsin L, cathepsin B, and viral proteases SARS-CoV M(pro), and PL(pro). The compounds showed antiparasitic activities against T. brucei and time-dependent inhibition of cathepsin L-like proteases with K(i) values in the low micromolar range.
Four new tetromycin derivatives, tetromycins 1–4 and a previously known one, tetromycin B (5) were isolated from Streptomyces axinellae Pol001T cultivated from the Mediterranean sponge Axinella polypoides. Structures were assigned using extensive 1D and 2D NMR spectroscopy as well as HRESIMS analysis. The compounds were tested for antiparasitic activities against Leishmania major and Trypanosoma brucei, and for protease inhibition against several cysteine proteases such as falcipain, rhodesain, cathepsin L, cathepsin B, and viral proteases SARS-CoV Mpro, and PLpro. The compounds showed antiparasitic activities against T. brucei and time-dependent inhibition of cathepsin L-like proteases with Ki values in the low micromolar range.
Channelrhodopsin-2 (ChR2) is widely used for rapid photodepolarization of neurons, yet, as it requires high-intensity blue light for activation, it is not suited for long-term in vivo applications, e. g. for manipulations of behavior, or photoactivation of neurons during development. We used "slow" ChR2 variants with mutations in the C128 residue, that exhibit delayed off-kinetics and increased light sensitivity in Caenorhabditis elegans. Following a 1 s light pulse, we could photodepolarize neurons and muscles for minutes (and with repeated brief stimulation, up to days) with low-intensity light. Photoactivation of ChR2(C128S) in command interneurons elicited long-lasting alterations in locomotion. Finally, we could optically induce profound changes in animal development: Long-term photoactivation of ASJ neurons, which regulate larval growth, bypassed the constitutive entry into the "dauer" larval state in daf-11 mutants. These lack a guanylyl cyclase, which possibly renders ASJ neurons hyperpolarized. Furthermore, photostimulated ASJ neurons could acutely trigger dauer-exit. Thus, slow ChR2s can be employed to long-term photoactivate behavior and to trigger alternative animal development.
Purpose:
The biologic relevance of human connective tissue growth factor (hCTGF) for primary human tenon fibroblasts (HTFs) was investigated by RNA expression profiling using affymetrix (TM) oligonucleotide array technology to identify genes that are regulated by hCTGF.
Methods:
Recombinant hCTGF was expressed in HEK293T cells and purified by affinity and gel chromatography. Specificity and biologic activity of hCTGF was confirmed by biosensor interaction analysis and proliferation assays. For RNA expression profiling HTFs were stimulated with hCTGF for 48h and analyzed using affymetrix (TM) oligonucleotide array technology. Results were validated by real time RT-PCR.
Results:
hCTGF induces various groups of genes responsible for a wound healing and inflammatory response in HTFs. A new subset of CTGF inducible inflammatory genes was discovered (e.g., chemokine [C-X-C motif] ligand 1 [CXCL1], chemokine [C-X-C motif] ligand 6 [CXCL6], interleukin 6 [IL6], and interleukin 8 [IL8]). We also identified genes that can transmit the known biologic functions initiated by CTGF such as proliferation and extracellular matrix remodelling. Of special interest is a group of genes, e.g., osteoglycin (OGN) and osteomodulin (OMD), which are known to play a key role in osteoblast biology.
Conclusions:
This study specifies the important role of hCTGF for primary tenon fibroblast function. The RNA expression profile yields new insights into the relevance of hCTGF in influencing biologic processes like wound healing, inflammation, proliferation, and extracellular matrix remodelling in vitro via transcriptional regulation of specific genes. The results suggest that CTGF potentially acts as a modulating factor in inflammatory and wound healing response in fibroblasts of the human eye.
Lipasen regulieren die Biosynthese von Jasmonaten, die eine elementare Signalfunktion bei der Entwicklung von Pflanzen und der Abwehr von Pathogenen haben. Entsprechend dem klassischen „Vick-Zimmerman-Pathway“ dienen die aus Galaktolipiden freigesetzten Fettsäuren α-18:3 und 16:3 als Substrate der Jasmonsäure (JA)-Synthese. In den letzen zehn Jahren wurden jedoch die Intermediate der JA-Biosynthese 12-Oxo-Phytodiensäure (OPDA, ausgehend von α-18:3) und Dinor-12-Oxo-Phytodiensäure (dnOPDA, ausgehend von 16:3) verestert in Galaktolipiden der Art Arabidopsis thaliana nachgewiesen. Die Biosynthese und die mögiche Speicherfunktion dieser komplexen, als Arabidopside bezeichneten, Lipide war jedoch noch unklar. In der Literatur wird ein alternativer Syntheseweg postuliert, in dem analog zum klassischen „Vick-Zimmerman-Pathway“ die Biosynthese von veresterter OPDA/dnOPDA ausgehend von veresterter α-18:3/16:3 vollständig in Galaktolipiden der Pastidenmembran stattfindet. Nach Freisetzung von OPDA/dnOPDA durch eine Lipase könnten OPDA/dnOPDA dann als Intermediate in die JA-Biosynthese einfliessen. Sowohl im klassischen „Vick-Zimmerman-Pathway“ als auch im postulierten alternativen Syntheseweg ist die Aktivität von Lipasen von essentieller Bedeutung für die JA-Biosynthese. Für zwei plastidäre sn1-spezifische Acyl-Hydrolasen, DEFECTIVE IN ANTHER DEHISCENCE1 (DAD1) und DONGLE (DGL), wurde eine zentrale Funktion innerhalb der Jasmonat-Biosynthese in Blättern von A. thaliana beschrieben. Dem zufolge ist DGL für die basalen und die frühen wundinduzierten JA-Gehalte und DAD1 für die Aufrechterhaltung der erhöhten JA-Konzentrationen in der späteren Verwundungsantwort verantwortlich. In der vorliegenden Arbeit wiesen drei unabhängige DGL-RNAi-Linien sowie DAD1-Knock-out-Mutanten sowohl unter basalen Bedingungen als auch zu frühen Zeitpunkten nach Verwundung sowie nach Infektion mit dem Bakterienstamm P. syringae DC3000 (avrRPM1) mit dem Wildtyp vergleichbare Konzentrationen an OPDA/JA auf. Dies steht im klaren Widerspruch zu den publizierten Daten. Die Beteiligung von DAD1 an der OPDA/JA-Biosynthese zu späten Zeitpunkten nach Verwundung konnte jedoch bestätigt werden. Ferner konnte eine dramatische Über-Akkumulation von Arabidopsiden in DAD1-defizienten Mutanten nach Verwundung nachgewiesen werden, was auf eine Beteiligung von DAD1 bei der Freisetzung von membrangebundener OPDA/dnOPDA hinweist. Die Analyse der Einzelmutanten 16 weiterer plastidärer Lipasen unter basalen Bedingungen, nach Verwundung und nach Infektion mit P. syringae DC3000 (avrRPM1) zeigte, dass keine der analysierten Mutanten eine essentielle Rolle in der JA-Biosynthese spielt. Jedoch wiesen Mutanten der sn1-spezifischen Lipasen AtPLA1-Iγ1 (At1g06800) signifikant niedrigere Konzentrationen an dnOPDA, OPDA und JA nach Verwundung auf, was eine indirekte Beteiligung an der JA-Biosynthese vermuten lässt. Blattgewebe einer Quadrupel-Mutanten, welche defizient in vier DAD1-ähnlichen Lipasen (AtPLA1-Iβ2, AtPLA1-Iγ1, AtPLA1-Iγ2, AtPLA1-Iγ3) ist, wies nach Verwundung mit der AtPLA1-Iγ1-Mutante vergleichbar niedrige Gehalte an dnOPDA, OPDA sowie JA auf. Da stets in sn2-Position vorliegende 16:3/dnOPDA ebenfalls Substrat der JA-Biosynthese sein kann, müssen zusätzlich zu DAD1 und AtPLA1-Iγ1 noch weitere nicht identifizierte sn1- und sn2-spezifische Acyl-Hydrolasen an der JA-Biosynthese nach Verwundung und Pathogeninfektion beteiligt sein. Dies bedeutet, dass entgegen der in der Literatur vertretenen Meinung, nicht eine sondern mehrere Lipasen in redundanter Weise die Biosynthese von Jasmonaten regulieren. Zur Aufklärung der Biosynthese und möglichen Speicherfunktion der ausschließlich in Arabidopsis vorkommenden Arabidopside wurden A. thaliana Keimlinge mit D5-Linolensäure-Ethylester inkubiert, um eine D5-Markierung der komplexen Lipide zu erzielen. Durch einen anschließenden Stressstimulus mittels Zugabe von Silbernitrat wurde die Jasmonat-Synthese induziert. Die vergleichende Analyse der Markierungsgrade der komplexen Membranlipide MGDG, DGDG, PC sowie der freien OPDA und JA vor und nach Zugabe des Silbernitrats zeigte, eine hohe Übereinstimmung der Markierungsgrade der komplexen Membranlipide 18:3-18:3-MGDG, 18:3-OPDA-MGDG, Arabidopsid B (MGDG-OPDA-OPDA) und Arabidopsid G (OPDA-MGDG-OPDA-OPDA) vor der Silbernitratbehandlung mit denjenigen der durch Silbernitratbehandlung neu gebildeten OPDA/JA. Dagegen wird die hochmarkierte freie Linolensäure nicht direkt zu freier OPDA umgesetzt. Die erhaltenen Ergebnisse zeigen, dass 18:3-OPDA-MGDG, Arabidopsid B und Arabidopsid G direkte Vorstufen von freier OPDA sein können. Damit übereinstimmend konnte gezeigt werden, dass nach Silbernitratstress die Spiege der Vorstufe 18:3-18:3-MGDG abnehmen und zeitgleich die entsprechenden unmittelbaren Metabolite 18:3-OPDA-MGDG, Arabidopsid B und Arabidopsid G akkumulieren.
Marine sponges and their associated bacteria have been proven to be a rich source of novel secondary metabolites with therapeutic usefulness in infection and autoimmunity. This Ph.D. project aimed to isolate bioactive secondary metabolites from the marine sponges Amphimedon compressa, Aiolochroia crassa and Theonella swinhoei as well as from bacteria associated with different Caribbean sponges, specifically actinomycetes and sphingomonads. In this study, amphitoxin was isolated from the crude methanol extract of the sponge A. compressa and it was found to have antibacterial and anti-parasitic activities. Amphitoxin showed protease inhibitory activity when tested against the mammalian protease cathepsin B and the parasitic proteases rhodesain and falcipain-2. Furthermore, miraziridine A was identified in the dichloromethane extract of the sponge T. swinhoei collected offshore Israel in the Red Sea. Miraziridine A, a natural peptide isolated previously from the marine sponge Theonella aff. mirabilis, is a potent cathepsin B inhibitor with an IC50 value of 1.4 g/mL (2.1 M). Secondary metabolites from sponge-derived bacteria were also isolated and identified. A total of 79 strains belonging to 20 genera of the order Actinomycetales and seven strains belonging to two genera of the order Sphingomonadales were cultivated from 18 different Caribbean sponges and identified by 16S rRNA gene sequencing. Seven of these strains are likely to represent novel species. Crude extracts from selected strains were found to exhibit protease inhibition against cathepsins B and L, rhodesain, and falcipain-2 as well as immunomodulatory activities such as induction of cytokine release by human peripheral blood mononuclear cells. The isolates Sphingobium sp. CO105 and Lapillicoccus sp. BA53 were selected for cultivation, extraction and purification of bioactive metabolites based on initial bioactive screening results. The isoalloxazine isolumichrome was isolated from the strain Sphingobium sp. CO105 which inhibited the protease rhodesain with an IC50 of 0.2 M. The strain Lapillicoccus sp. BA53 was found to produce p-aminosalicylic acid methyl ester, which showed activity against the proteases cathepsins B and L, falcipain-2 and rhodesain. These results highlight the significance of marine sponge-associated bacteria to produce bioactive secondary metabolites with therapeutic potential in the treatment of infectious diseases and disorders of the immune system.
In the model plant Arabidopsis thaliana, more than 2000 genes are estimated to encode transcription factors (TFs), which clearly emphasizes the importance of transcriptional control. Although genomic approaches have generated large TF open reading frame (ORF) collections, only a limited number of these genes is functionally characterized, yet. This review evaluates strategies and methods to identify TF functions. In particular, we focus on two recently developed TF screening platforms, which make use of publically available GATEWAY®-compatible ORF collections. (1) The Arabidopsis thaliana TF ORF over-Expression (AtTORF-Ex) library provides pooled collections of transgenic lines over-expressing HA-tagged TF genes, which are suited for screening approaches to define TF functions in stress defense and development. (2) A high-throughput microtiter plate based protoplast trans activation (PTA) system has been established to screen for TFs which are regulating a given promoter:Luciferase construct in planta.