Synthese, 11 C- und 18 F-Markierung und Evaluierung von Repaglinid-Derivaten zur Quantifizierung der pankreatischen beta-Zell-Masse in vivo mittels PET

Diabetes mellitus umfasst eine heterogene Gruppe von Stoffwechselfunktionsstörungen, die durch hohe Blut-Glukose-Werte gekennzeichnet sind. Zwei Haupttypen von Diabetes mellitus wurden definiert: Typ 1- und Typ 2-Diabetes. Repaglinid ist ein neuer, schnell wirksamer, bei Typ 2-Diabetikern eingesetzter prandialer Glukose-Regulator mit einer kurzen Plasmahalbwertszeit (<1 Stunde) und der erste Vertreter der Carbamoylmethylbenzoesäure Familie, der in klinischen Studien getestet wurde. Die 18F- und 11C-markierten Repaglinid-Derivate (S)-2-(2-[18F]Fluorethoxy)-4-((3-methyl-1-(2-piperidin-1-yl-phenyl)-butylcarbamoyl)-methyl)-benzoesäure ([18F]Fluorethoxy-desethoxy-Repaglinid) und (S)-2-([11C]Methoxy)-4-([3-methyl-1-(2-piperidin-1-yl-phenyl)-butyl-carba-moyl]-benzoesäure ([11C]Methoxy-desethoxy-Repaglinid) wurden als potentielle Tracer für die nicht-invasive Quantifizierung des Sulfonylharnstoffrezeptor-Typ1-Status (SUR-1) der Insulin-sezernierenden -Zellen mittels Positronen-Emissions-Tomographie (PET) synthetisiert. [18F]Fluorethoxy-desethoxy-Repaglinide konnte in einer radiochemischen Ausbeute (RCA) von 20% nach 135 Minuten mit einer radiochemischen Reinheit >98% unter Verwendung des sekundären Markierungsvorläufers 2-[18F]Fluorethyltosylat erhalten werden. Die spezifische Aktivität lag im Bereich von 50-60 GBq/µmol. Für die radioaktive Synthese des [11C]Methoxy-desethoxy-Repaglinids wurde der sekundäre Markierungsvorläufer [11C]Methyliodid verwendet. Der 11C-Radiotracer wurde in einer RCA von 35% (bezogen auf [11C]CO2) mit einer spezifischen Aktivität von 40-70 GBq/µmol erhalten. Um die Eigenschaften des fluorierten sowie des methoxylierten Repaglinids zu charakterisieren, wurde die Affinität beider Verbindungen zum humanen SUR-1 evaluiert. [19F]Fluorethoxy-desethoxy-Repaglinid und Methoxy-desethoxy-Repaglinid induzierten Verdrängungskurven mit Hill-Koeffizienten nahe 1 und ergaben Dissotiationskonstanten (KD) von 142 nM beziehungsweise 83 nM - vergleichsweise geringe Verluste relativ zu Original-Repaglinid. Die biologische Aktivität wurde mittels Insulin-Sekretionstests an isolierten Ratten-Inselzellen gezeigt und war ebenfalls mit der des Repaglinids vergleichbar. Schließlich wurde die Biodistribution des [18F]Fluorethoxy-desethoxy-Repaglinids in gesunden Sprague-Dawley-Ratten durch Messung der Konzentration der Verbindung in verschiedenen Organen nach intravenöser Injektion untersucht. Das pankreatische Gewebe zeigte im Zeitintervall zwischen 10 und 30 Minuten nach Injektion eine stabile Akkumulation von etwa 0.12% der injizierten Dosis. 50% dieser Tracer-Akkulmulation konnten durch zusätzliche Injektion von nicht-radioaktiv-markiertem Repaglinid verdrängt werden, was auf eine mögliche Eignung des [18F]Fluorethoxy-desethoxy-Repaglinids für in vivo-Untersuchungen mittels PET schließen lässt. Eine erste humane PET-Studie zeigte zwar ebenfalls eine stabile, allerdings nur geringere Akkumulation von [18F]Fluorethoxy-desethoxy-Repaglinid im Pankreas und eine überproportional hohe Aktivitätsanreicherung in der Leber. Die Radioaktivitäts-akkumulation im Blut fiel nach wenigen Minuten unter die des Pankreas.

Mechanics and dynamics of liposomes and cells studied by QCM and ECIS

The present thesis introduces a novel sensitive technique based on TSM resonators that provides quantitative information about the dynamic properties of biological cells and artificial lipid systems. In order to support and complement results obtained by this method supplementary measurements based on ECIS technique were carried out. The first part (chapters 3 and 4) deals with artificial lipid systems. In chapter 3 ECIS measurements were used to monitor the adsorption of giant unilamellar vesicles as well as their thermal fluctuations. From dynamic Monte Carlo Simulations the rate constant of vesicle adsorption was determined. Furthermore, analysis of fluctuation measurements reveals Brownian motion reflecting membrane undulations of the adherent liposomes. In chapter 4 QCM-based fluctuation measurements were applied to quantify nanoscopically small deformations of giant unilamellar vesicles with an external electrical field applied simultaneously. The response of liposomes to an external voltage with shape changes was monitored as a function of cholesterol content and adhesion force. In the second part (chapters 5 - 8) attention was given to cell motility. It was shown for the first time, that QCM can be applied to monitor the dynamics of living adherent cells in real time. QCM turned out to be a highly sensitive tool to detect the vertical motility of adherent cells with a time resolution in the millisecond regime. The response of cells to environmental changes such as temperature or osmotic stress could be quantified. Furthermore, the impact of cytochalasin D (inhibits actin polymerization) and taxol (facilitate polymerization of microtubules) as well as nocodazole (depolymerizes microtubules) on the dynamic properties of cells was scrutinized. Each drug provoked a significant reduction of the monitored cell shape fluctuations as expected from their biochemical potential. However, not only the abolition of fluctuations was observed but also an increase of motility due to integrin-induced transmembrane signals. These signals were activated by peptides containing the RGD sequence, which is known to be an integrin recognition motif. Ultimately, two pancreatic carcinoma cell lines, derived from the same original tumor, but known to possess different metastatic potential were studied. Different dynamic behavior of the two cell lines was observed which was attributed to cell-cell as well as cell-substrate interactions rather than motility. Thus one may envision that it might be possible to characterize the motility of different cell types as a function of many variables by this new highly sensitive technique based on TSM resonators. Finally the origin of the broad cell resonance was investigated. Improvement of the time resolution reveals the "real" frequency of cell shape fluctuations. Several broad resonances around 3-5 Hz, 15-17 Hz and 25-29 Hz were observed and that could unequivocally be assigned to biological activity of living cells. However, the kind of biological process that provokes this synchronized collective and periodic behavior of the cells remains to be elucidated.

Design, synthesis and biological evaluation of substituted naphthalene diimides as anticancer agents

It has been proved that naphthalene diimide (NDI) derivatives display anticancer properties as intercalators and G-quadruplex-binding ligands, leading to DNA damage, senescence and down-regulation of oncogene expression. This thesis deals with the design and synthesis of disubstituted and tetrasubstituted NDI derivatives endowed with anticancer activity, interacting with DNA together with other targets implicated in cancer development. Disubstituted NDI compounds have been designed with the aim to provide potential multitarget directed ligands (MTDLs), in order to create molecules able to simultaneously interact with some of the different targets involved in this pathology. The most active compound, displayed antiproliferative activity in submicromolar range, especially against colon and prostate cancer cell lines, the ability to bind duplex and quadruplex DNA, to inhibit Taq polymerase and telomerase, to trigger caspase activation by a possible oxidative mechanism, to downregulate ERK 2 protein and to inhibit ERKs phosphorylation, without acting directly on microtubules and tubuline. Tetrasubstituted NDI compounds have been designed as G-quadruplex-binding ligands endowed with anticancer activity. In order to improve the cellular uptake of the lead compound, the N-methylpiperazine moiety have been replaced with different aromatic systems and methoxypropyl groups. The most interesting compound was 1d, which was able to interact with the G-quadruplexes both telomeric and in HSP90 promoter region, and it has been co-crystallized with the human telomeric G-quadruplex, to directly verify its ability to bind this kind of structure, and also to investigate its binding mode. All the morpholino substituted compounds show antiproliferative activity in submicromolar values mainly in pancreatic and lung cancer cell lines, and they show an improved biological profile in comparison with that of the lead compound. In conclusion, both these studies, may represent a promising starting point for the development of new interesting molecules useful for the treatment of cancer, underlining the versatility of the NDI scaffold.

Adipose-derived stem cells and tissue revascularization: enhancing islet survival and performance for diabetes care.

Pancreatic islet transplantation represents a fascinating procedure that, at the moment, can be considered as alternative to standard insulin treatment or pancreas transplantation only for selected categories of patients with type 1 diabetes mellitus. Among the factors responsible for leading to poor islet engraftment, hypoxia plays an important role. Mesenchymal stem cells (MSCs) were recently used in animal models of islet transplantation not only to reduce allograft rejection, but also to promote revascularization. Currently adipose tissue represents a novel and good source of MSCs. Moreover, the capability of adipose-derived stem cells (ASCs) to improve islet graft revascularization was recently reported after hybrid transplantation in mice. Within this context, we have previously shown that hyaluronan esters of butyric and retinoic acids can significantly enhance the rescuing potential of human MSCs. Here we evaluated whether ex vivo preconditioning of human ASCs (hASCs) with a mixture of hyaluronic (HA), butyric (BU), and retinoic (RA) acids may result in optimization of graft revascularization after islet/stem cell intrahepatic cotransplantation in syngeneic diabetic rats. We demonstrated that hASCs exposed to the mixture of molecules are able to increase the secretion of vascular endothelial growth factor (VEGF), as well as the transcription of angiogenic genes, including VEGF, KDR (kinase insert domain receptor), and hepatocyte growth factor (HGF). Rats transplanted with islets cocultured with preconditioned hASCs exhibited a better glycemic control than rats transplanted with an equal volume of islets and control hASCs. Cotransplantation with preconditioned hASCs was also associated with enhanced islet revascularization in vivo, as highlighted by graft morphological analysis. The observed increase in islet graft revascularization and function suggests that our method of stem cell preconditioning may represent a novel strategy to remarkably improve the efficacy of islets-hMSCs cotransplantation.

Funktionelle Charakterisierung des TRPM5-Gens

In der vorliegenden Promotionsarbeit wurde der zur TRP (transient receptor potential)-Familie gehörende TRPM5-Kanal funktionell charakterisiert. Elektrophysiologische Analysen TRPM5-überexprimierender HEK 293-Zellen zeigten, dass TRPM5 einen Ca2+-aktivierbaren, nicht-selektiven Kationenkanal darstellt, der monovalente Ionen leitet. Die Aktivierung des TRPM5-Kanals hängt insbesondere von der Geschwindigkeit des intrazellulären Ca2+-Anstiegs ab. Somit stellt TRPM5 eine Komponente der zellulären Signaltransduktionskaskaden dar: Nach Rezeptoraktivierung induziert TRPM5 einen raschen, transienten Kationeneinstrom, der zur Depolarisation der Zellmembran führt. Die Expression der beiden humanen TRPM5-Spleißformen als TRPM5/EGFP-Fusionsproteine in HEK 293-Zellen zeigte eine vorwiegende Lokalisation in der Zellmembran. In elektrophysiologischen Analysen wurde nachgewiesen, dass TRPM5-short als TRPM5-Kanalblocker funktioniert. Für die funktionelle in vivo-Charakterisierung des TRPM5-Kanals wurde ein auf RNAi (RNA interference) basierendes, transgenes Trpm5-knock down-Mausmodell hergestellt. Obwohl in drei der vier etablierten Knock down-Mauslinien eine Trpm5-Herunterregulation in der Leber und/oder in der Zunge nachgewiesen werden konnte, zeigten alle Mäuse einen wildtyp-ähnlichen Phänotyp. Weiterführende Untersuchungen an den von Zhang et al. (Cell, 2003) hergestellten Trpm5-knock out-Mäusen offenbarten, dass Trpm5 für eine geregelte Glukosetoleranz essentiell ist. Insulinsekretionsanalysen mit isolierten Langerhans’schen Inseln dieser Mäuse zeigten, dass ohne Trpm5 eine beeinträchtigte Insulinsekretionskinetik in den pankreatischen Betazellen vorliegt. Somit stellt TRPM5 einen neuen Kandidaten für Erkrankungen wie Diabetes Typ 2 dar, die durch eine Fehlregulation der Insulinsekretion gekennzeichnet sind.

Modulation der Strahlen- und Chemosensitivität menschlicher Tumorzellen durch Interferon

Pankreaskarzinome und maligne Melanome weisen eine hohe Resistenz gegenüber Zytostatika und Bestrahlung in der Therapie auf. Die Behandlung eines metastasierenden Pankreaskarzinoms besteht aus einer Kombination aus 5-FU, CDDP und IR. Für die Behandlung des malignen Melanoms ist das methylierende Agenz DTIC das Mittel erster Wahl. Das ebenfalls methylierende Agenz TMZ, welches jedoch in Deutschland noch nicht für die Behandlung von malignen Melanomen zugelassen ist, erlangt immer größere Bedeutung. Die Ansprechrate der Tumore kann durch Kombination mit IFNs erhöht werden. In der vorliegenden Arbeit wurde an Pankreaskarzinom- bzw. Melanomzelllinien untersucht, ob IFNs einen radio- bzw. chemosensibilisierender Effekt ausüben und, wenn ja, welcher Mechanismus hierfür verantwortlich ist. Es wurden zehn Pankreaskarzinom-Zelllinien (Panc-1, Su8686, Capan-1, Capan-2, Bxpc-3, PA-TU 8988T, Aspc-1, HS 766T, Mia-PaCa-2 und PA-TU 8902) untersucht. Diese zeigten eine hohe Variabilität in ihrer intrinsischen Radiosensitivität sowie in ihrer Sensitivität gegenüber IFN-alpha und IFN-beta. IFN-beta erwies sich als toxischer im Vergleich zu IFN-alpha. Die radiosensibilisierende Wirkung der IFNs an Pankreaskarzinom-Zelllinien war moderat, wobei IFN-beta im Vergleich zu IFN-alpha effektiver war. Der radiosensibilisierende Effekt ging mit einer deutlichen Erhöhung der alpha-Komponente, der Überlebenskurven einher und kam durch eine IFN-beta vermittelte Verstärkung der IR-induzierten Apoptoserate zustande. Dies wurde sowohl durch SubG1 als auch durch Annexin V / PI Messungen gezeigt. Einen Einfluss von IFN-beta auf den Zellzyklus und die DSB-Reparatur konnte durch funktionelle Untersuchungen sowie durch PCR bzw. Western-Blot-Analysen als Grund für den sensibilisierdenen Effekt ausgeschlossen werden. Ein sensibilisierender Effekt von IFN-beta auf die durch TMZ-induzierte Zytotoxizität war für die Pankreaskarzinom-Zelllinien weder in MGMT-profizientem noch –depletiertem Zustand zu beobachten. Zur Untersuchung der sensibilisierenden Eigenschaften von IFNs gegenüber TMZ in malignen Melanomzelllinien wurden p53-Wildtyp (D05 und A375) und mutierte Zelllinien (D14 und RPMI 7951) untersucht. Gegenüber alleiniger TMZ-Behandlung reagierten die untersuchten p53-Wildtyp Melanomzelllinien nicht sensitiver auf eine Behandlung mit TMZ als p53-mutierte Zelllinien. Der Nachweis des Spaltprodukts der Caspase-9 lieferte einen Hinweis darauf, dass in den Melanomzelllinien unabhängig vom p53-Status nach alleiniger TMZ-Behandlung der mitochondriale Apoptoseweg aktiviert wird. Durch eine Vorbehandlung der Zellen mit IFN-alpha oder IFN-beta konnte die TMZ-induzierte Apoptoserate in malignen Melanomzellen deutlich gesteigert werden. In p53-Wildtyp Melanomzellen war der chemosensibilisierende Effekt der IFNs besonders ausgeprägt. IFN-beta erwies sich hierbei als effektiver, weshalb es für die folgenden Versuche verwendet wurde. Durch stabile Transfektion der Zelllinie D05 mit MGMT konnte das durch TMZ-induzierte Addukt O6MeG als für den sensibilisieredenen Effekt ausschlaggebende DNA-Schädigung charakterisiert werden. Western-Blot-Analysen und gamma-H2AX-Immunfluoreszenz Untersuchungen konnten einen Einfluss von IFN-beta auf die Prozessierung der Läsion O6MeG sowie einen Einfluss von IFN-beta auf die Induktion und Reparatur von TMZ verursachten DSBs ausschließen. Durch Experimente mit einem Fas-aktivierenden Antikörper und durch eine stabile Transfektion der Zelllinien D05 und A375 mit DN-FADD konnte gezeigt werden, dass p53-Wildtyp Melanomzellen nicht oder nur eingeschränkt in der Lage sind, nach TMZ-Behandlung über den Fas-Rezeptor Signalweg Apoptose zu induzieren. Ausschlaggebend hierfür ist die geringe Pro-Caspase-8 Expression dieser Zelllinien. Eine IFN-beta Vorbehandlung bewirkte eine Reaktivierung des Fas-Rezeptor Signalweges, was mit einer verstärkten Expression der Pro-Caspase-8 einherging. Durch Experimente mit Caspase-8 siRNA konnte diese IFN-beta induzierte Verstärkung der Pro-Caspase-8 Expression als entscheidender Faktor für den sensibilisierenden Effekt ausgemacht werden. Zum ersten Mal konnte damit in dieser Arbeit gezeigt werden, dass p53-Wildtyp Melanomzellen durch eine IFN-beta vermittelte Hochregulation der Pro-Caspase-8 ihre Fähigkeit wiedererlangen, nach TMZ-Behandlung über den Fas-Rezeptor Signalweg Apoptose auszulösen. Diese Arbeiten weisen einen Weg, auf welchem die hohe Resistenz von malignen Melanomzellen, welche zu 80 % das nicht mutierte p53 Gen beherbergen, über eine IFN-beta induzierte Reaktivierung der Fas-Rezeptor vermittelten Apoptosekaskade überwunden werden kann.

Design and Synthesis of Naphthalene Diimides Based Small Molecules as Anticancer Agents: Targeting the Polyamine Transporter, G-quadruplex Structures and HDAC

Cancer is a multifactorial disease characterized by a very complex etiology. Basing on its complex nature, a promising therapeutic strategy could be based by the “Multi-Target-Directed Ligand” (MTDL) approach, based on the assumption that a single molecule could hit several targets responsible for the pathology. Several agents acting on DNA are clinically used, but the severe deriving side effects limit their therapeutic application. G-quadruplex structures are DNA secondary structures located in key zones of human genome; targeting quadruplex structures could allow obtaining an anticancer therapy more free from side effects. In the last years it has been proved that epigenetic modulation can control the expression of human genes, playing a crucial role in carcinogenesis and, in particular, an abnormal expression of histone deacetylase enzymes are related to tumor onset and progression. This thesis deals with the design and synthesis of new naphthalene diimide (NDI) derivatives endowed with anticancer activity, interacting with DNA together with other targets implicated in cancer development, such as HDACs. NDI-polyamine and NDI-polyamine-hydroxamic acid conjugates have been designed with the aim to provide potential MTDLs, in order to create molecules able simultaneously to interact with different targets involved in this pathology, specifically the G-quadruplex structures and HDAC, and to exploit the polyamine transport system to get selectively into cancer cells. Macrocyclic NDIs have been designed with the aim to improve the quadruplex targeting profile of the disubstituted NDIs. These compounds proved the ability to induce a high and selective stabilization of the quadruplex structures, together with cytotoxic activities in the micromolar range. Finally, trisubstituted NDIs have been developed as G-quadruplex-binders, potentially effective against pancreatic adenocarcinoma. In conclusion, all these studies may represent a promising starting point for the development of new interesting molecules useful for the treatment of cancer, underlining the versatility of the NDI scaffold.

Development of new molecular methods for the diagnosis and the study of viral diseases of fish

The increase in aquaculture operations worldwide has provided new opportunities for the transmission of aquatic viruses. The occurrence of viral diseases remains a significant limiting factor in aquaculture production and for the sustainability. The ability to identify quickly the presence/absence of a pathogenic organism in fish would have significant advantages for the aquaculture systems. Several molecular methods have found successful application in fish pathology both for confirmatory diagnosis of overt diseases and for detection of asymptomatic infections. However, a lot of different variants occur among fish host species and virus strains and consequently specific methods need to be developed and optimized for each pathogen and often also for each host species. The first chapter of this PhD thesis presents a complete description of the major viruses that infect fish and provides a relevant information regarding the most common methods and emerging technologies for the molecular diagnosis of viral diseases of fish. The development and application of a real time PCR assay for the detection and quantification of lymphocystivirus was described in the second chapter. It showed to be highly sensitive, specific, reproducible and versatile for the detection and quantitation of lymphocystivirus. The use of this technique can find multiple application such as asymptomatic carrier detection or pathogenesis studies of different LCDV strains. The third chapter, a multiplex RT-PCR (mRT-PCR) assay was developed for the simultaneous detection of viral haemorrhagic septicaemia (VHS), infectious haematopoietic necrosis (IHN), infectious pancreatic necrosis (IPN) and sleeping disease (SD) in a single assay. This method was able to efficiently detect the viral RNA in tissue samples, showing the presence of single infections and co-infections in rainbow trout samples. The mRT-PCR method was revealed to be an accurate and fast method to support traditional diagnostic techniques in the diagnosis of major viral diseases of rainbow trout.

Die Interaktion von VHL und PTEN bei der Tumorinitiation und Progression

Das VHL-Syndrom umfasst Erkrankungen, die mit einem Funktionsverlust von VHL einhergehen. Das Tumorspektrum umfasst retinale und zerebrale Hämangioblastome, Nierenzysten und klarzellige Nierenkarzinome, Zysten und Tumore des Pankreas, Phäochromocytome, Adenome der Hoden und Tumore des Mittelohrs. Obwohl aufgrund klinischer Studien bekannt ist, welche VHL-Mutation mit welchen Neoplasien assoziiert werden können, konnte bisher kein VHL-Mausmodell das Krankheitsbild des VHL-Syndroms widerspiegeln. Daher ist vermutlich eine zusätzliche Fehlregulation weiterer Gene nötig ist, um die Tumorgenese in den verschiedenen Geweben zu induzieren. In mehreren klarzelligen Nierenkarzinomen konnte bereits eine PTEN-Defizienz nachgewiesen werden, der Verlust von PTEN wird außerdem auch mit der Tumorgenese von Phäochromocytomen assoziiert. Möglicherweise wirken VHL und PTEN also in der Tumorsuppression in der Niere und der Nebenniere zusammen.rnIm Rahmen dieser Arbeit konnte erstmals eine VHL-vermittelte Stabilisierung der PTEN-Konzentration sowohl in embryonalen als auch in Tumor-Zellen der Niere nachgewiesen werden. Die Analyse des Regulationsmechanismus ergab erstens eine Hypoxie-abhängige Abnahme der Transkription von PTEN. Des Weiteren konnte eine VHL-vermittelte Ubiquitinylierung von NEDD4-1, welches als E3-Ligase von PTEN dessen Degradation und Kerntransport reguliert, ermittelt werden. rnIn Nierenkarzinom-Zellen wurde weiterhin eine VHL- bzw. PTEN-Restitution induziert, um die Auswirkungen der beiden Tumorsuppressoren auf das Zellverhalten in vitro und in vivo zu untersuchen. Sowohl VHL als auch PTEN hatten dieselben Effekte lediglich in unterschiedlicher Intensität auf das Verhalten der Zellen. So konnte VHL- und PTEN-abhängig eine Verstärkung der Adhäsion, eine Inhibierung der Migration und eine Verminderung der Überlebens- und Metastasierungsfähigkeit nachgewiesen werden. Des Weiteren wurden Mausmodelle mit einem ubiquitären, heterozygoten Pten-Verlust generiert, die teilweise eine zusätzliche Haploinsuffizienz von Vhl bzw. eine heterozygote VHL Typ II-Mutation (V2B oder V2C) trugen. Sporadisch entwickelten diese Mäuse Vhl-abhängig Lebertumore und Pten-abhängig Lymphome und Ovarialkarzinome. Einige Mäuse mit einer kombinierten Vhl- und Pten-Defizienz bildeten zusätzlich Nierenzysten aus, die teilweise das gesamte Volumen der Niere einnahmen. Besonders häufig entstanden in Pten-haploinsuffizienten Mäusen Phäochromocytome, die durch eine zusätzliche V2B- oder V2C-Mutation in gleichaltrigen Mäusen deutlich weiterentwickelt waren. Demnach induziert erst der gemeinsame Verlust von Vhl und Pten die Bildung von Nierenzysten und Phäochromocytomen, welche dem Krankheitsbild des VHL-Syndroms zugeordnet werden.rnDie Untersuchungen innerhalb dieser Arbeit zeigen erstmalig die Interaktion und Kooperation von VHL und PTEN in der Tumorsuppression. Die Resultate bieten außerdem die Grundlage für weitere Analysen der Auswirkung der VHL-vermittelten PTEN-Stabilisierung und für detailliertere Untersuchungen der durch die kombinierte Vhl- und Pten-Defizienz induzierten Neoplasien der Niere und der Nebennieren-Tumore in in vivo Mausmodellen.rn

Functional characterization of the placenta specific protein PLAC1 and its use for cancer immunotherapy

Summary Antibody-based cancer therapies have been successfully introduced into the clinic and have emerged as the most promising therapeutics in oncology. The limiting factor regarding the development of therapeutical antibody vaccines is the identification of tumor-associated antigens. PLAC1, the placenta-specific protein 1, was categorized for the first time by the group of Prof. Sahin as such a tumor-specific antigen. Within this work PLAC1 was characterized using a variety of biochemical methods. The protein expression profile, the cellular localization, the conformational state and especially the interacting partners of PLAC1 and its functionality in cancer were analyzed. Analysis of the protein expression profile of PLAC1 in normal human tissue confirms the published RT-PCR data. Except for placenta no PLAC1 expression was detectable in any other normal human tissue. Beyond, an increased PLAC1 expression was detected in several cancer cell lines derived of trophoblastic, breast and pancreatic lineage emphasizing its properties as tumor-specific antigen. rnThe cellular localization of PLAC1 revealed that PLAC1 contains a functional signal peptide which conducts the propeptide to the endoplasmic reticulum (ER) and results in the secretion of PLAC1 by the secretory pathway. Although PLAC1 did not exhibit a distinct transmembrane domain, no unbound protein was detectable in the cell culture supernatant of overexpressing cells. But by selective isolation of different cellular compartments PLAC1 was clearly enriched within the membrane fraction. Using size exclusion chromatography PLAC1 was characterized as a highly aggregating protein that forms a network of high molecular multimers, consisting of a mixture of non-covalent as well as covalent interactions. Those interactions were formed by PLAC1 with itself and probably other cellular components and proteins. Consequently, PLAC1 localize outside the cell, where it is associated to the membrane forming a stable extracellular coat-like structure.rnThe first mechanistic hint how PLAC1 promote cancer cell proliferation was achieved identifying the fibroblast growth factor FGF7 as a specific interacting partner of PLAC1. Moreover, it was clearly shown that PLAC1 as well as FGF7 bind to heparin, a glycosaminoglycan of the ECM that is also involved in FGF-signaling. The participation of PLAC1 within this pathway was approved after co-localizing PLAC1, FGF7 and the FGF7 specific receptor (FGFR2IIIb) and identifying the formation of a trimeric complex (PLAC1, FGF7 and the specific receptor FGFR2IIIb). Especially this trimeric complex revealed the role of PLAC1. Binding of PLAC1 together with FGF7 leads to the activation of the intracellular tyrosine kinase of the FGFR2IIIb-receptor and mediate the direct phosphorylation of the AKT-kinase. In the absence of PLAC1, no FGF7 mediated phosphorylation of AKT was observed. Consequently the function of PLAC1 was clarified: PLAC1 acts as a co-factor by stimulating proliferation by of the FGF7-FGFR2 signaling pathway.rnAll together, these novel biochemical findings underline that the placenta specific protein PLAC1 could be a new target for cancer immunotherapy, especially considering its potential applicability for antibody therapy in tumor patients.

CCK2 receptor splice variant with intron 4 retention in human gastrointestinal and lung tumours

The wild-type cholecystokinin type 2 (CCK(2)) receptor is expressed in many gastrointestinal and lung tumours. A splice variant of the CCK(2) receptor with retention of intron 4 (CCK(2)Ri4sv) showing constitutive activity associated with increased tumour growth was described in few colorectal, pancreatic and gastric cancers. Given the potential functional and clinical importance of this spliceoform, its occurrence was quantitatively characterized in a broad collection of 81 gastrointestinal and lung tumours, including insulinomas, ileal carcinoids, gastrointestinal stromal tumours (GIST), gastric, colorectal and pancreatic ductal adenocarcinomas, cholangiocellular and hepatocellular carcinomas, small cell lung cancers (SCLC), non-SCLC (nSCLC) and bronchopulmonary carcinoids, as well as 21 samples of corresponding normal tissues. These samples were assessed for transcript expression of total CCK(2) receptor, wild-type CCK(2) receptor and CCK(2)Ri4sv with end-point and real-time RT-PCR, and for total CCK(2) receptor protein expression on the basis of receptor binding with in vitro receptor autoradiography. Wild-type CCK(2) receptor transcripts were found in the vast majority of tumours and normal tissues. CCK(2)Ri4sv mRNA expression was present predominantly in insulinomas (incidence 100%), GIST (100%) and SCLC (67%), but rarely in pancreatic, colorectal and gastric carcinomas and nSCLC. It was not found in wild-type CCK(2) receptor negative tumours or any normal tissues tested. CCK(2)Ri4sv transcript levels in individual tumours were low, ranging from 0.02% to 0.14% of total CCK(2) receptor transcripts. In conclusion, the CCK(2)Ri4sv is a marker of specific gastrointestinal and lung tumours. With its high selectivity for and high incidence in SCLC and GIST, it may represent an attractive clinical target.

The CFTR frameshift mutation 3905insT and its effect at transcript and protein level

Cystic fibrosis (CF) is one of the most common genetic diseases in the Caucasian population and is characterized by chronic obstructive pulmonary disease, exocrine pancreatic insufficiency, and elevation of sodium and chloride concentrations in the sweat and infertility in men. The disease is caused by mutations in the CF transmembrane conductance regulator (CFTR) gene, which encodes a protein that functions as chloride channel at the apical membrane of different epithelia. Owing to the high genotypic and phenotypic disease heterogeneity, effects and consequences of the majority of the CFTR mutations have not yet been studied. Recently, the frameshift mutation 3905insT was identified as the second most frequent mutation in the Swiss population and found to be associated with a severe phenotype. The frameshift mutation produces a premature termination codon (PTC) in exon 20, and transcripts bearing this PTC are potential targets for degradation through nonsense-mediated mRNA decay (NMD) and/or for exon skipping through nonsense-associated alternative splicing (NAS). Using RT-PCR analysis in lymphocytes and different tissue types from patients carrying the mutation, we showed that the PTC introduced by the mutation does neither elicit a degradation of the mRNA through NMD nor an alternative splicing through NAS. Moreover, immunocytochemical analysis in nasal epithelial cells revealed a significantly reduced amount of CFTR at the apical membrane providing a possible molecular explanation for the more severe phenotype observed in F508del/3905insT compound heterozygotes compared with F508del homozygotes. However, further experiments are needed to elucidate the fate of the 3905insT CFTR in the cell after its biosynthesis.

Hyperglycaemia but not hyperlipidaemia decreases serum amylase and increases neutrophils in the exocrine pancreas of cats

The goal of the study was to determine whether hyperglycaemia or hyperlipidaemia causes pancreatitis in cats and to assess the effect of excess serum glucose and lipids on amylase and lipase activity. Ten-day hyperglycaemic and hyperlipidaemic clamps were carried out in five and six healthy cats, respectively. Ten healthy cats received saline and served as controls. The activity of amylase was below the normal range in 4 of 5 hyperglycaemic cats by day 10. The activity of lipase did not vary in any of the cats. Samples of exocrine pancreas were normal on histological examination, but the number of tissue neutrophils was increased in hyperglycaemic cats (P<0.05). In a retrospective study 14 of 40 (35%) cats with naturally occurring diabetes mellitus had amylase activities below the reference range at the time of admission. Amylase activities normalised within 1 week of insulin therapy and subsequent glycaemic control. Lipase activity was increased in 26 of 40 (65%) diabetic cats and remained elevated despite glycaemic control. In conclusion, hyperglycaemia, but not hyperlipidaemia, increases pancreatic neutrophils in cats. However, because the histological morphology of the exocrine pancreas was normal, hyperglycaemia may play only a minor role in the pathogenesis of pancreatitis. Low amylase activities in diabetic cats may reflect an imbalance in glucose metabolism rather than pancreatitis.

Absence of somatostatin SST(2) receptor internalization in vivo after intravenous SOM230 application in the AR42J animal tumor model

Among clinically relevant somatostatin functions, agonist-induced somatostatin receptor subtype 2 (sst(2)) internalization is a potent mechanism for tumor targeting with sst(2) affine radioligands such as octreotide. Since, as opposed to octreotide, the second generation multi-somatostatin analog SOM230 (pasireotide) exhibits strong functional selectivity, it appeared of interest to evaluate its ability to affect sst(2) internalization in vivo. Rats bearing AR42J tumors endogenously expressing somatostatin sst(2) receptors were injected intravenously with SOM230 or with the [Tyr(3), Thr(8)]-octreotide (TATE) analog; they were euthanized at various time points; tumors and pancreas were analyzed by immunohistochemistry for the cellular localization of somatostatin sst(2) receptors. SOM230-induced sst(2) internalization was also evaluated in vitro by immunofluorescence microscopy in AR42J cells. At difference to the efficient in vivo sst(2) internalization triggered by intravenous [Tyr(3), Thr(8)]-octreotide, intravenous SOM230 did not elicit sst(2) internalization: immunohistochemically stained sst(2) in AR42J tumor cells and pancreatic cells were detectable at the cell surface at 2.5min, 10min, 1h, 6h, or 24h after SOM230 injection while sst(2) were found intracellularly after [Tyr(3), Thr(8)]-octreotide injection. The inability of stimulating sst(2) internalization by SOM230 was confirmed in vitro in AR42J cells by immunofluorescence microscopy. Furthermore, SOM230 was unable to antagonize agonist-induced sst(2) internalization, neither in vivo, nor in vitro. Therefore, SOM230 does not induce sst(2) internalization in vivo or in vitro in AR42J cells and pancreas, at difference to octreotide derivatives with comparable sst(2) binding affinities. These characteristics may point towards different tumor targeting but also to different desensitization properties of clinically applied SOM230.

Agonist-biased signaling at the sst2A receptor: the multi-somatostatin analogs KE108 and SOM230 activate and antagonize distinct signaling pathways

Somatostatin analogs that activate the somatostatin subtype 2A (sst2A) receptor are used to treat neuroendocrine cancers because they inhibit tumor secretion and growth. Recently, new analogs capable of activating multiple somatostatin receptor subtypes have been developed to increase tumor responsiveness. We tested two such multi-somatostatin analogs for functional selectivity at the sst2A receptor: SOM230, which activates sst1, sst2, sst3, and sst5 receptors, and KE108, which activates all sst receptor subtypes. Both compounds are reported to act as full agonists at their target sst receptors. In sst2A-expressing HEK293 cells, somatostatin inhibited cAMP production, stimulated intracellular calcium accumulation, and increased ERK phosphorylation. SOM230 and KE108 were also potent inhibitors of cAMP accumulation, as expected. However, they antagonized somatostatin stimulation of intracellular calcium and behaved as partial agonists/antagonists for ERK phosphorylation. In pancreatic AR42J cells, which express sst2A receptors endogenously, SOM230 and KE108 were both full agonists for cAMP inhibition. However, although somatostatin increased intracellular calcium and ERK phosphorylation, SOM230 and KE108 again antagonized these effects. Distinct mechanisms were involved in sst2A receptor signaling in AR42J cells; pertussis toxin pretreatment blocked somatostatin inhibition of cAMP accumulation but not the stimulation of intracellular calcium and ERK phosphorylation. Our results demonstrate that SOM230 and KE108 behave as agonists for inhibition of adenylyl cyclase but antagonize somatostatin's actions on intracellular calcium and ERK phosphorylation. Thus, SOM230 and KE108 are not somatostatin mimics, and their functional selectivity at sst2A receptors must be considered in clinical applications where it may have important consequences for therapy.