TY - JOUR A1 - Tsai, Yu-Chen A1 - Grimm, Stefan A1 - Chao, Ju-Lan A1 - Wang, Shih-Chin A1 - Hofmeyer, Kerstin A1 - Shen, Jie A1 - Eichinger, Fred A1 - Michalopoulou, Theoni A1 - Yao, Chi-Kuang A1 - Chang, Chih-Hsuan A1 - Lin, Shih-Han A1 - Sun, Y. Henry A1 - Pflugfelder, Gert O. T1 - Optomotor-blind negatively regulates Drosophila eye development by blocking Jak/STAT signaling JF - PLoS ONE N2 - Organ formation requires a delicate balance of positive and negative regulators. In Drosophila eye development, wingless (wg) is expressed at the lateral margins of the eye disc and serves to block retinal development. The T-box gene optomotor-blind (omb) is expressed in a similar pattern and is regulated by Wg. Omb mediates part of Wg activity in blocking eye development. Omb exerts its function primarily by blocking cell proliferation. These effects occur predominantly in the ventral margin. Our results suggest that the primary effect of Omb is the blocking of Jak/STAT signaling by repressing transcription of upd which encodes the Jak receptor ligand Unpaired. KW - morphogenetic furrow progression KW - cell fate KW - compartment boundary KW - reporter gene KW - compound eye KW - gene expression KW - retinal differentiation KW - acts downstream KW - imaginal disk KW - glial cells Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-143577 VL - 10 IS - 3 ER - TY - THES A1 - El-Barkani, Abdelmalic T1 - Molekulargenetische Charakterisierung des pH-regulierten Dimorphismus und der pH-abhängigen Genexpression von Candida albicans und Entwicklung eines Reportersystem für Candida glabrata T1 - Molecular genetic Characterisation of the pH Regulated Dimorphism and the pH Dependent Gene Expression of Candida albicans and Development of a Reporter System for Candida glabrata N2 - Candida albicans ist in der Lage seine Zellmorphologie in Abhängigkeit von Umweltfaktoren zu verändern (Odds, 1988). Dieser morphologische Formenwechsel ist ein wesentlicher Pathogenitätsfaktor von C. albicans. Der pH-Wert gehört zu den wichtigen Umweltfaktoren, welche die Zellmorphologie von C. albicans beeinflussen. Bei sauren pH-Werten wächst C. albicans als unizellulärer Sprosspilz, während bei neutralen pH-Werten und einer Umgebungstemperatur von 37°C die filamentöse Form dominiert (Buffo et al., 1984). C. albicans reagiert auf unterschiedliche pH-Werte mit der differentiellen Expression bestimmter Gene. Zu diesen gehören die funktional homologen Gene PHR1 und PHR2, deren Genprodukte an der Synthese der Pilzzellwand beteiligt sind. PHR1 wird im neutralen Milieu induziert, während PHR2 im sauren Milieu exprimiert wird. Die Deletion von PHR1 oder PHR2 führt zu pH-abhängigen Defekten des Wachstums, der Zellmorphologie und der Virulenz (Saporito-Irwin et al., 1995; Mühlschlegel und Fonzi, 1997; De Bernardis et al., 1998). Im Rahmen der vorliegenden Arbeit wurde anhand der Isolierung von phr2D-Revertanten der Zusammenhang der molekularen Regulation des morphologischen Formenwechsels und der pH-regulierten Expression von Genen, die eine wichtige Funktion bei der Zellwandsynthese besitzen, untersucht. Die phr2D-Revertanten waren in der Lage bei einem pH-Wert von 4 zu wachsen und zu filamentieren. Das irreguläre Wachstum der Revertanten war auf eine konstitutive Expression des PHR1-Gens zurückzuführen. Dagegen spielte das bei sauren pH-Werten exprimierte PHR1 keine Rolle für das atypische Filamentierungsverhalten der Revertanten. Die molekulargenetische Untersuchung unabhängiger phr2D-Revertanten zeigte, dass eine heterozygote dominant-aktive Mutation im RIM101-Lokus für den Phänotyp der Revertanten verantwortlich war. RIM101 ist demnach das Schlüsselelement des pH-regulierten Dimorphismus. Diese Ergebnisse zeigten zudem, dass der in Aspergillus nidulans und anderen Pilzen beschriebene molekulare Mechanismus der pH-abhängigen Genexpression auch in C. albicans konserviert ist. Die Expression multipler wildtypischer oder mutierter RIM101-Kopien führte zur Suppression des Temperatursignals, welches für das pH-abhängige filamentöse Wachstum notwendig ist. Demnach konvergieren die Umweltsignale pH-Wert und Temperatur auf gemeinsame Zielgene. RIM101 von C. albicans scheint seine eigene Expression zu induzieren. Konstitutiv aktive RIM101-Allele verursachen eine starke Expression von RIM101 bei pH 4. Im Wildtyp dagegen wird RIM101 bei sauren pH-Werten nur schwach exprimiert. Die Inaktivierung der MAP Kinase Kaskade und der cAMP-abhängigen Kaskade durch Deletion der beiden Gene CPH1 und EFG1 führt zur Blockade der morphologischen Flexibilität von C. albicans (Lo et al., 1997). Mit Hilfe eines dominant–aktiven RIM101-Allels wurde eine mögliche Wechselwirkung von RIM101 mit diesen Filamentierungskaskaden untersucht. Diese Untersuchungen ergaben, dass der pH-regulierte Dimorphismus von EFG1 abhängig war. Dagegen war die pH-regulierte Genexpression unabhängig von EFG1. C. albicans und Candida glabrata sind als opportunistische Krankheitserreger in der Lage diverse Gewebe und Organe zu besiedeln und zu infizieren. Das Überleben in den unterschiedlichen Wirtsnischen erfordert daher eine hohe Anpassungsfähigkeit. Auf unterschiedliche Umweltbedingungen reagiert C. albicans, wie oben beschrieben, mit der Expression bestimmter Gene, wie z. B. PHR1, PHR2 und RIM101. Während die Genregulation in C. albicans in den letzten Jahren intensiv erforscht wurde, ist über die differentielle Genexpression in der klinisch zunehmend wichtigen Spezies C. glabrata kaum etwas bekannt. Im Rahmen dieser Arbeit wurde die Etablierung eines geeigneten Reportersystems für C. glabrata angestrebt, welches zur Untersuchung der Genregulation und der Identifizierung differentiell exprimierter Gene eingesetzt werden kann. Das lacZ-Gen wurde als Reporter für die Genexpression in C. glabrata getestet. Die Resultate zeigten die Funktionalität des bakteriellen lacZ-Gens als Reporter für die Genexpression in C. glabrata. Zu dem wurden C. glabrata / E. coli Shuttle-Vektoren entwickelt, die für translationelle Genfusionen zum lacZ verwendet werden können. N2 - Morphological development of the fungal pathogen C. albicans is profoundly affected by environmental signals. This morphological flexibility is considered an essential factor for pathogenicity of C. albicans. One of the important signals that regulates morphology of C. albicans is the ambient pH. Acidic pH restricts growth to the yeast form, whereas neutral pH permits development of the filamentous form. Superimposed on the pH restriction is a temperature requirement of approximately 37°C for filamentation. C. albicans responds to changes in environmental pH by differential expression of several genes including PHR1 and PHR2. PHR2 is an acid expressed gene that is not expressed at detectable levels above pH 6.5. Mutants lacking PHR2 are unable to grow at acidic pH and exhibit morphological defects. PHR1 is an alkaline expressed gene with the inverse pattern of expression. PHR1 and PHR2 encode functionally homologous proteins involved in cell wall biosynthesis, which is pivotal in determining cell shape changes during morphogenesis. The role of pH in development was investigated in this work by selecting revertants of phr2D mutants that had gained the ability to grow at acid pH. The extragenic suppressors in two independent revertants were identified as nonsense mutations in the pH response regulator RIM101 that resulted in a carboxy-terminal truncation of the open reading frame. These dominant active alleles conferred the ability to filament at acidic pH, to express PHR1, an alkaline expressed gene, at acidic pH and to repress the acid expressed gene PHR2. This indicates that RIM101 is a key regulator of the pH-dependent dimorphism in C. albicans. Furthermore these results suggest that the molecular mechanisms which control pH-dependent gene expression in Aspergillus nidulans and other fungi are also conserved in C. albicans. It was also observed that both the wild type and mutant alleles could act as multicopy suppressors of the temperature restriction on filamentation, allowing extensive filamentation at 29°C. This observation suggests that two environmental signals, pH and temperature, converge on common molecular targets. The ability of the activated alleles to promote filamentation was dependent upon the developmental regulator EFG1. The results suggest that RIM101 is responsible for the pH-dependence of hyphal development. C. albicans and C. glabrata are opportunistic pathogens which are able to colonize and infect many tissues and organs. This indicates that these organisms are well adapted for survival within the diverse environmental niches of the human host. C. albicans responds to different environmental signals, as described above, with the expression of certain genes, e.g. PHR1, PHR2 and RIM101. In contrast to C. albicans the gene regulation in the emerging pathogen C. glabrata is poorly understood. In order to develop a reporter system allowing studies on regulated gene expression in C. glabrata the functionality of the E. coli lacZ gene as a reporter of gene expression in C. glabrata was investigated. C. glabrata shuttle vectors suitable for the construction of translational fusions of a gene of interest to the E. coli lacZ reporter were generated. By fusing different promoters to the lacZ gene it could be shown that the E. coli lacZ gene provides a sensitive and inducible reporter displaying b-galactosidase activity in C. glabrata. KW - Candida albicans KW - Wasserstoffionenkonzentration KW - Genexpression KW - Torulopsis glabrata KW - Markierungsgen KW - Candida albicans KW - pH KW - Dimorphismus KW - Genexpression KW - RIM101 KW - Candida glabrata KW - Reportergen KW - Candida albicans KW - pH KW - dimorphism KW - gene expression KW - RIM101 KW - Candida glabrata KW - reporter gene Y1 - 2000 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-1125 ER - TY - JOUR A1 - Haddad, Dana A1 - Chen, Chun-Hao A1 - Carlin, Sean A1 - Silberhumer, Gerd A1 - Chen, Nanhai G. A1 - Zhang, Qian A1 - Longo, Valerie A1 - Carpenter, Susanne G. A1 - Mittra, Arjun A1 - Carson, Joshua A1 - Au, Joyce A1 - Gonen, Mithat A1 - Zanzonico, Pat B. A1 - Szalay, Aladar A. A1 - Fong, Yuman T1 - Imaging Characteristics, Tissue Distribution, and Spread of a Novel Oncolytic Vaccinia Virus Carrying the Human Sodium Iodide Symporter JF - PLoS One N2 - Introduction: Oncolytic viruses show promise for treating cancer. However, to assess therapy and potential toxicity, a noninvasive imaging modality is needed. This study aims to determine the in vivo biodistribution, and imaging and timing characteristics of a vaccinia virus, GLV-1h153, encoding the human sodium iodide symporter (hNIS. Methods: GLV-1h153 was modified from GLV-1h68 to encode the hNIS gene. Timing of cellular uptake of radioiodide \(^{131}\)I in human pancreatic carcinoma cells PANC-1 was assessed using radiouptake assays. Viral biodistribution was determined in nude mice bearing PANC-1 xenografts, and infection in tumors confirmed histologically and optically via Green Fluorescent Protein (GFP) and bioluminescence. Timing characteristics of enhanced radiouptake in xenografts were assessed via \(^{124}\)I-positron emission tomography (PET). Detection of systemic administration of virus was investigated with both \(^{124}\)I-PET and 99m-technecium gamma-scintigraphy. Results: GLV-1h153 successfully facilitated time-dependent intracellular uptake of \(^{131}\)I in PANC-1 cells with a maximum uptake at 24 hours postinfection (P < 0.05). In vivo, biodistribution profiles revealed persistence of virus in tumors 5 weeks postinjection at 10\(^9\) plaque-forming unit (PFU)/gm tissue, with the virus mainly cleared from all other major organs. Tumor infection by GLV-1h153 was confirmed via optical imaging and histology. GLV-1h153 facilitated imaging virus replication in tumors via PET even at 8 hours post radiotracer injection, with a mean % ID/gm of 3.82 \(\pm\) 60.46 (P < 0.05) 2 days after intratumoral administration of virus, confirmed via tissue radiouptake assays. One week post systemic administration, GLV1h153-infected tumors were detected via \(^{124}\)I-PET and 99m-technecium-scintigraphy. Conclusion: GLV-1h153 is a promising oncolytic agent against pancreatic cancer with a promising biosafety profile. GLV-1h153 facilitated time-dependent hNIS-specific radiouptake in pancreatic cancer cells, facilitating detection by PET with both intratumoral and systemic administration. Therefore, GLV-1h153 is a promising candidate for the noninvasive imaging of virotherapy and warrants further study into longterm monitoring of virotherapy and potential radiocombination therapies with this treatment and imaging modality. KW - nude mice KW - pancreatic cancer KW - engineered measles-virus KW - positron-emission-tomography KW - malignant pleural mesothelioma KW - reporter gene KW - replicating adenovirus KW - NA/I symporter KW - breast cancer KW - viral therapy Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-130041 VL - 7 IS - 8 ER - TY - JOUR A1 - Kirscher, Lorenz A1 - Deán-Ben, Xosé Luis A1 - Scadeng, Miriam A1 - Zaremba, Angelika A1 - Zhang, Qian A1 - Kober, Christina A1 - Fehm, Thomas Felix A1 - Razansky, Daniel A1 - Ntziachristos, Vasilis A1 - Stritzker, Jochen A1 - Szalay, Aladar A. T1 - Doxycycline Inducible Melanogenic Vaccinia Virus as Theranostic Anti-Cancer Agent JF - Theranostics N2 - We reported earlier the diagnostic potential of a melanogenic vaccinia virus based system in magnetic resonance (MRI) and optoacoustic deep tissue imaging (MSOT). Since melanin overproduction lead to attenuated virus replication, we constructed a novel recombinant vaccinia virus strain (rVACV), GLV-1h462, which expressed the key enzyme of melanogenesis (tyrosinase) under the control of an inducible promoter-system. In this study melanin production was detected after exogenous addition of doxycycline in two different tumor xenograft mouse models. Furthermore, it was confirmed that this novel vaccinia virus strain still facilitated signal enhancement as detected by MRI and optoacoustic tomography. At the same time we demonstrated an enhanced oncolytic potential compared to the constitutively melanin synthesizing rVACV system. KW - reporter gene KW - oncolysis KW - molecular imaging KW - virotherapy Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-124987 VL - 5 IS - 10 ER -