876 resultados para protein levels
Resumo:
The repressor element 1-silencing transcription factor (REST) was first identified as a protein that binds to a 21-bp DNA sequence element (known as repressor element 1 (RE1)) resulting in transcriptional repression of the neural-specific genes [Chong et al., 1995; Schoenherr and Anderson, 1995]. The original proposed role for REST was that of a factor responsible for restricting neuronal gene expression to the nervous system by silencing expression of these genes in non-neuronal cells. Although it was initially thought to repress neuronal genes in non-neuronal cells, the role of REST is complex and tissue dependent. In this study I investigated any role played by REST in the induction and patterning of differentiation of SH-SY5Y human neuroblastoma cells exposed to IGF-I. and phorbol 12- myristate 13-acetate (PMA) To down-regulate REST expression we developed an antisense (AS) strategy based on the use of phosphorothioate oligonucleotides (ODNs). In order to evaluate REST mRNA levels, we developed a real-time PCR technique and REST protein levels were evaluated by western blotting. Results showed that nuclear REST is increased in SH-SY5Y neuroblastoma cells cultured in SFM and exposed to IGF-I for 2-days and it then declines in 5-day-treated cells concomitant with a progressive neurite extension. Also the phorbol ester PMA was able to increase nuclear REST levels after 3-days treatment concomitant to neuronal differentiation of neuroblastoma cells, whereas, at later stages, it is down-regulated. Supporting these data, the exposure to PKC inhibitors (GF10923X and Gö6976) and PMA (16nM) reverted the effects observed with PMA alone. REST levels were related to morphological differentiation, expression of growth coneassociated protein 43 (GAP-43; a gene not regulated by REST) and of synapsin I and βIII tubulin (genes regulated by REST), proteins involved in the early stage of neuronal development. We observed that differentiation of SH-SY5Y cells by IGF-I and PMA was accompanied by a significant increase of these neuronal markers, an effect that was concomitant with REST decrease. In order to relate the decreased REST expression with a progressive neurite extension, I investigated any possible involvement of the ubiquitin–proteasome system (UPS), a multienzymatic pathway which degrades polyubiquinated soluble cytoplasmic proteins [Pickart and Cohen, 2004]. For this purpose, SH-SY5Y cells are concomitantly exposed to PMA and the proteasome inhibitor MG132. In SH-SY5Y exposed to PMA and MG 132, we observed an inverse pattern of expression of synapsin I and β- tubulin III, two neuronal differentiation markers regulated by REST. Their cytoplasmic levels are reduced when compared to cells exposed to PMA alone, as a consequence of the increase of REST expression by proteasome inhibitor. The majority of proteasome substrates identified to date are marked for degradation by polyubiquitinylation; however, exceptions to this principle, are well documented [Hoyt and Coffino, 2004]. Interestingly, REST degradation seems to be completely ubiquitin-independent. The expression pattern of REST could be consistent with the theory that, during early neuronal differentiation induced by IGF-I and PKC, it may help to repress the expression of several genes not yet required by the differentiation program and then it declines later. Interestingly, the observation that REST expression is progressively reduced in parallel with cell proliferation seems to indicate that the role of this transcription factor could also be related to cell survival or to counteract apotosis events [Lawinger et al., 2000] although, as shown by AS-ODN experiments, it does not seem to be directly involved in cell proliferation. Therefore, the decline of REST expression is a comparatively later event during maturation of neuroroblasts in vitro. Thus, we propose that REST is regulated by growth factors, like IGF-I, and PKC activators in a time-dependent manner: it is elevated during early steps of neural induction and could contribute to down-regulate genes not yet required by the differentiation program while it declines later for the acquisition of neural phenotypes, concomitantly with a progressive neurite extension. This later decline is regulated by the proteasome system activation in an ubiquitin-indipendent way and adds more evidences to the hypothesis that REST down-regulation contributes to differentiation and arrest of proliferation of neuroblastoma cells. Finally, the glycosylation pattern of the REST protein was analysed, moving from the observation that the molecular weight calculated on REST sequence is about 116 kDa but using western blotting this transcription factor appears to have distinct apparent molecular weight (see Table 1.1): this difference could be explained by post-translational modifications of the proteins, like glycosylation. In fact recently, several studies underlined the importance of O-glycosylation in modulating transcriptional silencing, protein phosphorylation, protein degradation by proteasome and protein–protein interactions [Julenius et al., 2005; Zachara and Hart, 2006]. Deglycosilating analysis showed that REST protein in SH-SY5Y and HEK293 cells is Oglycosylated and not N-glycosylated. Moreover, using several combination of deglycosilating enzymes it is possible to hypothesize the presence of Gal-β(1-3)-GalNAc residues on the endogenous REST, while β(1-4)-linked galactose residues may be present on recombinant REST protein expressed in HEK293 cells. However, the O-glycosylation process produces an immense multiplicity of chemical structures and monosaccharides must be sequentially hydrolyzed by a series of exoglycosidase. Further experiments are needed to characterize all the post-translational modification of the transcription factor REST.
Resumo:
MYCN oncogene amplification/expression is a feature of many childhood tumors, and some adult tumors, and it is associated with poor prognosis. While MYC expression is ubiquitary, MYCN has a restricted expression after birth and it is an ideal target for an effective therapy. PNAs belong to the latest class of nucleic acid-based therapeutics, and they can bind chromosomal DNA and block gene transcription (anti-gene activity). We have developed an anti-gene PNA that targets specifically the MYCN gene to block its transcription. We report for the first time MYCN targeted inhibition in Rhabdomyosarcoma (RMS) by the anti-MYCN-PNA in RMS cell lines (four ARMS and four ERMS) and in a xenograft RMS mouse model. Rhabdomyosarcoma is the most common pediatric soft-tissue sarcoma, comprising two main subgroups [Alveolar (ARMS) and Embryonal (ERMS)]. ARMS is associated with a poorer prognosis. MYCN amplification is a feature of both the ERMS and ARMS, but the MYCN amplification and expression levels shows a significant correlation and are greater in ARMS, in which they are associated with adverse outcome. We found that MYCN mRNA and protein levels were higher in the four ARMS (RH30, RH4, RH28 and RMZ-RC2) than in the four ERMS (RH36, SMS-CTR, CCA and RD) cell lines. The potent inhibition of MYCN transcription was highly specific, it did not affect the MYC expression, it was followed by cell-growth inhibition in the RMS cell lines which correlated with the MYCN expression rate, and it led to complete cell-growth inhibition in ARMS cells. We used a mutated- PNA as control. MYCN silencing induced apoptosis. Global gene expression analysis (Affymetrix microarrays) in ARMS cells treated with the anti-MYCN-PNA revealed genes specifically induced or repressed, with both genes previously described as targets of N-myc or Myc, and new genes undescribed as targets of N-myc or Myc (mainly involved in cell cycle, apoptosis, cell motility, metastasis, angiogenesis and muscle development). The changes in the expression of the most relevant genes were confirmed by Real-Time PCR and western blot, and their expression after the MYCN silencing was evaluated in the other RMS cell lines. The in vivo study, using an ARMS xenograft murine model evaluated by micro-PET, showed a complete elimination of the metabolic tumor signal in most of the cases (70%) after anti-MYCN-PNA treatment (without toxicity), whereas treatment with the mutated-PNA had no effect. Our results strongly support the development of MYCN anti-gene therapy for the treatment of RMS, particularly for poor prognosis ARMS, and of other MYCN-expressing tumors.
Resumo:
Phospholipase C (PLC) has been known to be a key effector protein in signal transduction pathway for cell proliferation and differentiation. Studies on signalling through the insulin/IGF-1 receptors in muscle differentiation have revealed that PLCγ1 is involved during this process and that both mRNA and protein levels were increased during myogenesis. Based on increasing signal transduction pathways that required both PLCγ1 and PKCε, we investigated its role in insulin stimulation of skeletal muscle differentiation. The precise effects of insulin on specific PKC isoforms are as yet unknown. Insulin stimulation produced a gradual increase in PKCε expression and activation of PKCε through skeletal muscle differentiation. By immunoprecipitation we have demonstrated that endogenous PLCγ1 and PKCε belong to the same immunocomplex that increase during through myogenic differentiation. Furthermore, the SH domain of PLCγ1 is involved in the protein complex and that its confine to the Golgi membrane. PLCγ1 has been involved in cyclin D3 up-regulation. By overexpression and silencing approach we have evidenced that PKCε modulate the espression of cyclin D3; the kinase dead form of PKCε doesn’t maintain the same ability. Using a reporter hGH vector we proved that PKCε acts at transcriptional level by affecting the -37 region of cyclin D3 promoter, as has been described previous for PLCγ1. In summary this data proved the involvement of PKCε in the regulation of cyclin D3 expression, together with PLCγ1.
Resumo:
Breast carcinoma, one of the most frequent malignancies in women, is a complex disease in which a number of different factors combine to drive pathogenesis. The biopathological characterization of these tumors is essential to determine their aggressiveness and to find the most appropriate therapy. As in others neoplasms, the deregulation of signal transduction pathways is frequently responsible for conferring selective biological advantages to the tumor. Phosphoinositides play an essential role in diverse cellular functions, their metabolism is highly active, and is tightly controlled. Among the enzymes implicated in this pathway, phospholipase C beta 1 (PLCβ1) is one of the key regulators, both at the cytoplasmic and the nuclear level. The PLCβ1 gene maps onto the short arm of chromosome 20, a region that has been shown to be altered in several solid tumors, including breast cancer. In the present study a FISH approach was used to investigate the genetic alterations of the PLCβ1 gene in various classes of breast cancer which differ in their invasiveness and proliferation status, according to their mitotic index. The overall aim was to find out whether this enzyme could be a suitable prognostic marker for this neoplasm. Our results show that 83% of cases had aneusomies at the 20p12 level, and the most frequent alteration is a gain in this specific locus. Indeed, we found that this amplification is not related to the invasion status since there were no differences in amplified tumor frequencies between in situ and invasive breast cancer. On the contrary, the gain of PLCβ1 was significantly related to the mitotic index (p = 0.001). To verify if the change in genetic dosage influences the expression of PLCβ1 we performed Real Time PCR and Immunohystochemical analysis. Our results confirmed that amplified tumors have higher levels of PLCβ1 mRNA, which is the sum of the two splicing isoforms 1a and 1b. On the other hand, even if protein levels were higher in the majority of cases compared to the nontumoral specimens, there were no significant associations between gain and overexpression. Finally, the significant association between the amplification of PLCβ1 and others important clinicopathological parameters, such as grading and hormonal receptors status, confirmed a correlation of this enzyme with the aggressiveness of breast cancer. This suggests that PLCβ1 has the potential to be a prognostic marker in these tumors. However, further work needs to be carried out to validate these preliminary findings.
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The Ctr family is an essential part of the copper homeostasis machinery and its members share sequence homology and structural and functional features. Higher eukaryotes express two members of this family Ctr1 and Ctr2. Numerous structural and functional studies are available for Ctr1, the only high affinity Cu(I) transporter thus far identified. Ctr1 holigotrimers mediate cellular copper uptake and this protein was demonstrated to be essential for embryonic development and to play a crucial role in dietary copper acquisition. Instead very little is known about Ctr2, it bears structural homology to the yeast vacuolar copper transporter, which mediates mobilization of vacuolar copper stores. Recent studies using over-expressed epitope-tagged forms of human Ctr2 suggested a function as a low affinity copper transporter that can mediate either copper uptake from the extracellular environment or mobilization of lysosomal copper stores. Using an antibody that recognizes endogenous mouse Ctr2, we studied the expression and localization of endogenous mouse Ctr2 in cell culture and in mouse models to understand its regulation and function in copper homeostasis. By immunoblot we observed a regulation of mCtr2 protein levels in a copper and Ctr1 dependent way. Our observations in cells and transgenic mice suggest that lack of Ctr1 induces a strong downregulation of Ctr2 probably by a post-translational mechanism. By indirect immunofluorescence we observed an exclusive intracellular localization in a perinuclear compartment and no co-localization with lysosomal markers. Immunofluorescence experiments in Ctr1 null cells, supported by sequence analysis, suggest that lysosomes may play a role in mCtr2 biology not as resident compartment, but as a degradation site. In appendix a LC-mass method for analysis of algal biotoxins belonging to the family of PsP (paralytic shellfish poisoning) is described.
Resumo:
The β-Amyloid (βA) peptide is the major component of senile plaques that are one of the hallmarks of Alzheimer’s Disease (AD). It is well recognized that Aβ exists in multiple assembly states, such as soluble oligomers or insoluble fibrils, which affect neuronal viability and may contribute to disease progression. In particular, common βA-neurotoxic mechanisms are Ca2+ dyshomeostasis, reactive oxygen species (ROS) formation, altered signaling, mitochondrial dysfunction and neuronal death such as necrosis and apoptosis. Recent study shows that the ubiquitin-proteasome pathway play a crucial role in the degradation of short-lived and regulatory proteins that are important in a variety of basic and pathological cellular processes including apoptosis. Guanosine (Guo) is a purine nucleoside present extracellularly in brain that shows a spectrum of biological activities, both under physiological and pathological conditions. Recently it has become recognized that both neurons and glia also release guanine-based purines. However, the role of Guo in AD is still not well established. In this study, we investigated the machanism basis of neuroprotective effects of GUO against Aβ peptide-induced toxicity in neuronal (SH-SY5Y), in terms of mitochondrial dysfunction and translocation of phosphatidylserine (PS), a marker of apoptosis, using MTT and Annexin-V assay, respectively. In particular, treatment of SH-SY5Y cells with GUO (12,5-75 μM) in presence of monomeric βA25-35 (neurotoxic core of Aβ), oligomeric and fibrillar βA1-42 peptides showed a strong dose-dependent inhibitory effects on βA-induced toxic events. The maximum inhibition of mitochondrial function loss and PS translocation was observed with 75 μM of Guo. Subsequently, to investigate whether neuroprotection of Guo can be ascribed to its ability to modulate proteasome activity levels, we used lactacystin, a specific inhibitor of proteasome. We found that the antiapoptotic effects of Guo were completely abolished by lactacystin. To rule out the possibility that this effects resulted from an increase in proteasome activity by Guo, the chymotrypsin-like activity was assessed employing the fluorogenic substrate Z-LLL-AMC. The treatment of SH-SY5Y with Guo (75 μM for 0-6 h) induced a strong increase, in a time-dependent manner, of proteasome activity. In parallel, no increase of ubiquitinated protein levels was observed at similar experimental conditions adopted. We then evaluated an involvement of anti and pro-apoptotic proteins such as Bcl-2, Bad and Bax by western blot analysis. Interestingly, Bax levels decreased after 2 h treatment of SH-SY5Y with Guo. Taken together, these results demonstrate that Guo neuroprotective effects against βA-induced apoptosis are mediated, at least partly, via proteasome activation. In particular, these findings suggest a novel neuroprotective pathway mediated by Guo, which involves a rapid degradation of pro-apoptotic proteins by the proteasome. In conclusion, the present data, raise the possibility that Guo could be used as an agent for the treatment of AD.
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Basal-like tumor is an aggressive breast carcinoma subtype that displays an expression signature similar to that of the basal/myoepithelial cells of the breast tissue. Basal-like carcinoma are characterized by over-expression of the Epidermal Growth Factor receptor (EGFR), high frequency of p53 mutations, cytoplasmic/nuclear localization of beta-catenin, overexpression of the Hypoxia inducible factor (HIF)-1alpha target Carbonic Anhydrase isoenzime 9 (CA9) and a gene expression pattern similar to that of normal and cancer stem cells, including the over-expression of the mammary stem cell markers CD44. In this study we investigated the role of p53, EGFR, beta-catenin and HIF-1alpha in the regulation of stem cell features and genes associated with the basal-like gene expression profile. The findings reported in this investigation indicate that p53 inactivation in ductal breast carcinoma cells leads to increased EGFR mRNA and protein levels. In our experimental model, EGFR overexpression induces beta-catenin cytoplasmatic stabilization and transcriptional activity and, by that, leads to increased aggressive features including mammosphere (MS) forming and growth capacity, invasive potential and overexpression of the mammary stem cell gene CD44. Moreover we found that EGFR/beta-catenin axis promotes hypoxia survival in breast carcinoma cells via increased CA9 expression. Indeed beta-catenin positively regulates CA9 expression upon hypoxia exposure. Interestingly we found that beta-catenin inhibits HIF-1alpha transcriptional activity. Looking for the mechanism, we found that CA9 expression is promoted by HIF-1alpha and cytoplasmatic beta-catenin further increased it post-transcriptionally, via direct mRNA binding and stabilization. These data reveal a functional beta-catenin/HIF-1alpha interplay among hallmarks of basal-like tumors and unveil a new functional role for cytoplasmic beta-catenin in the phenotype of such tumors. Therefore it can be proposed that the interplay here described among EGFR/beta-catenin and HIF-1alpha may play a role in breast cancer stem cell survival and function.
Resumo:
Die Alterung stellt den größten Risikofaktor für die Entwicklung der Alzheimer Krankheit dar, wobei die biochemische Basis dieser Korrelation bisher nicht bekannt ist. Ein möglicherweise zentraler Mechanismus der Alzheimer Pathologie wird durch die Prozessierung von APP repräsentiert, die in der Synthese von Aβ resultiert. Der Einfluss zellulärer Alterung auf die Biochemie der APP-Prozessierung ist bislang weitestgehend ungeklärt. In der vorliegenden Arbeit wurde gezeigt, dass die Prozessierung von endogenem APP im Verlauf der Zellalterung humaner Fibroblasten progressiv verringert wird. Die Bildung der intrazellulären APP-Spaltfragmente (C99, C83 und AICD) nahm mit zunehmender Lebensspanne ab und war gleichfalls mit einer reduzierten Synthese von extrazellulären APP-Fragmenten (sAPP, sAPPα) verbunden. Weiterhin wurde nachgewiesen, dass die Reifung von APP in seneszenten Zellen selektiv reduziert war, und dass dies durch altersabhängig erhöhte zelluläre Cholesterolspiegel vermittelt wurde. Von den APP-prozessierenden Sekretasen waren die Proteinspiegel von Presenilin-1 und Nicastrin, beides Komponenten der γ-Sekretase, im Verlauf der Zellalterung graduell verringert. Dies hatte einen progressiven Rückgang der enzymatischen Aktivität der γ-Sekretase zur Folge, wodurch die Prozessierung von APP unmittelbar reduziert wurde. Die Proteinspiegel von ADAM10, einer α-Sekretase, sowie der β-Sekretase, BACE, wiesen keine Altersregulation auf, aber interessanterweise wurde eine erhöhte enzymatische Aktivität der β-Sekretase in seneszenten Zellen nachgewiesen. Die γ-Sekretase sowie BACE sind in Lipid Rafts lokalisiert, geordneten Membransubdomänen, die hohe Cholesterol- und Caveolin-1-Spiegel aufweisen. Obwohl das Gesamtniveau dieser strukturellen Komponenten von Lipid Rafts in seneszenten Zellen erhöht war, war die Assoziation beider Moleküle mit Lipid Rafts reduziert und sie akkumulierten in speziellen Organellen, die höchstwahrscheinlich Lipidkörper darstellen. Somit wurde gezeigt, dass Lipid Rafts im Zuge der Zellalterung disintegrieren beziehungsweise in ihrem Gesamtspiegel reduziert waren. Diese altersabhängige Membranmodifikation war mit einer veränderten Verteilung von Presenilin-1 und BACE zwischen der Lipid Raft und der Nicht Raft Fraktion der Membran verbunden, die möglicherweise das Potential dieser Enzyme zur Prozessierung von APP reduzierte. In einem zweiten Teil der Arbeit wurden transgene C. elegans konstruiert, die humanes APP exprimieren, das C-terminal an GFP gekoppelt war. Diese Würmer wiesen eine reduzierte Fertilität, Eilegedefekte und eine verzögerte post-embryonale Entwicklung auf, die möglicherweise auf eine Transgen-vermittelte Neurodegeneration zurückgeführt werden können. Durch erste Untersuchungen der Prozessierung des Transgens konnten Spaltfragmente nachgewiesen werden, die potentiell auf eine spezifische Spaltung von APP durch die endogenen Sekretasen schließen lassen. Somit werden die Prozessierung sowie die Reifung von APP durch die altersabhängige Modifikationen zellulärer Biochemie nachhaltig beeinflusst. Zukünftige Studien sollen zeigen, ob sich diese zellulären Zusammenhänge in den Gesamtorganismus C. elegans übertragen lassen. Des Weiteren sollen die altersabhängigen zellulären Veränderungen, insbesondere des Cholesterol-Metabolismus und der Sekretaseaktivitäten, weitergehend analysiert werden, um zusätzliche Erkenntnisse über altersassoziierte Regulationen möglicher therapeutischer Ziele der Alzheimer Erkrankung zu gewinnen.
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Desmosomen sind hoch organisierte adhäsive interzelluläre Verbindungen, die benachbarte Zellen durch Verankerung mit den Intermediärfilamenten des Zytoskeletts miteinander verknüpfen und so Zellen und Geweben Stabilität verleihen. Die Adhäsionsmoleküle der Desmosomen sind die desmosomalen Cadherine. Diese transmembranen Glykoproteine gehen im Interzellulärraum Verbindungen mit den desmosomalen Cadherinen der Nachbarzelle ein und sind im zytoplasmatischen Bereich Anheftungspunkte für weitere an der Desmosomenbildung beteiligte Proteine. Ziel dieser Arbeit war die Untersuchung der Rolle von Desmoglein 2 (Dsg 2), einem in allen Epithelien exprimierten desmosomalen Cadherin. Da der konstitutive knock out von Dsg 2 embryonal letal ist, wurde im Rahmen dieser Doktorarbeit eine transgene Maus generiert, in der die Reduktion von Dsg 2 temporär regulierbar war (konditionaler knock down). Dazu wurde der Mechanismus der RNA Interferenz genutzt, wodurch Sequenz-spezifische, post-transkriptionelle Regulation von Genen möglich ist. Unter Verwendung eines über Cre/lox-induzierbaren Vektors wurden transgene Mäuse generiert, welche nach Induktion Dsg 2 shRNA exprimieren, die in der Zelle in siRNA umgewandelt wird und zum Abbau der Dsg 2 mRNA führt. Durch Verpaarung der generierten Dsg 2 knock down Maus mit der über Tamoxifen induzierbaren Cre Deleter knock in Mauslinie Rosa26CreERT2 konnte deutliche Reduktion der Dsg 2 Proteinmenge in Leber, Darm und Herz erreicht werden. In Immunfärbungen der Leber wurde zudem eine reduzierte Desmosomenbildung durch Expression der Dsg 2 shRNA detektiert. Die für diese Versuche generierte und getestete Rosa26CreERT2 Mauslinie ermöglichte jedoch nicht in allen Zellen eines Gewebes die komplette Aktivierung der Cre Rekombinase und damit die Expression der shRNA. Dadurch entstanden mosaikartige Wildtyp/knock down-Gewebe, in denen noch ausreichend Desmosomen gebildet wurden, um die Gewebestabilität und -struktur zu erhalten. Für eine funktionale Untersuchung von Dsg 2 in Zusammenhang mit der chronisch entzündlichen Darmerkrankung Colitis ulcerosa wurden die Dsg 2 knock down Mäuse mit Darm-spezifischen, induzierbaren Cre Deleter Mäusen (VillinCreERT2) verpaart. Nach Aktivierung der Cre Rekombinase mittels Tamoxifen wurde in bitransgenen Tieren über Gabe von Azoxymethan (AOM) und Dextransodiumsulfat (DSS) Colitis ulcerosa induziert. Diese entzündliche Erkrankung des Darms ist mit der Induktion von Darmtumoren assoziiert. Bereits nach einmaliger Induktion mit AOM/DSS wurde in der ersten endoskopischen Untersuchung eine starke Entzündung des Darmgewebes und die Ausbildung von flächig wachsenden Tumoren in den Dsg 2 knock down Tieren hervorgerufen. Es ist anzunehmen, dass durch knock down von Dsg 2, und die damit verbundene verminderte Desmosomenbildung und Zelladhäsion, Infiltration von Bakterien durch die epitheliale Barriere des Darms möglich war, und so die Entzündungsreaktion in der Darmmukosa verstärkte. In Zusammenhang mit Verlust der epithelialen Festigkeit durch verringerte Zellkontakte kam es zur Hyperproliferation der Darmmukosa, die sich in Ausbildung von flächigen Tumoren äußerte. In weiteren Experimenten müssen nun die Tumore und das entzündete Gewebe der Colitis-induzierten Mäuse mittels Immunfluoreszenz untersucht werden, um Veränderungen in der Desmosomenformation in situ detektieren zu können. Des Weiteren sind Verpaarungen der Dsg 2 knock down Maus mit anderen Cre Rekombinase exprimierenden Mauslinien möglich, um den Einfluss von Dsg 2 auch in anderen Geweben, beispielsweise im Herzen, zu untersuchen. Die hier vorgelegte Arbeit zeigt also erstmalig den ursächlichen Zusammenhang zwischen Dsg 2 und dem Auftreten von Colitis-assoziierten Tumoren in einem konditionalen RNAi-vermittelten knock down Tiermodell. Die Etablierung dieser Maus ist somit das erste konditionale Mausmodell, welches die bei vielen Krebspatienten gefundenen flachzellig wachsenden Tumore in vivo rekapituliert. Vorausschauend kann man sagen, dass mit Hilfe des im Rahmen dieser Doktorarbeit entwickelten Tiermodells wichtige Erkenntnisses über die Pathologie von Darmtumoren erbracht werden können, die unser Verständnis der Colitis-induzierten Tumorentstehung verbessern.
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Il medulloblastoma (MB) è il tumore più comune del sistema nervoso centrale. Attualmente si riesce a curare solo il 50-60% dei pazienti che tuttavia presentano gravi effetti collaterali dovuti alle cure molto aggressive. Una recente classificazione molecolare ha ridistribuito le varianti più comuni di MB in quattro distinti gruppi. In particolare, il gruppo SHH e D sono caratterizzati da un’ alta espressione di MYCN ed associati a prognosi sfavorevole. MYCN è coinvolto nella regolazione della proliferazione cellulare, differenziazione, apoptosi, angiogenesi e metastasi. L’obiettivo di questo lavoro è la valutazione dell’attività antitumorale di oligonucleotidi diretti contro MYCN, sia in vitro su diverse linee cellulari di MB che in vivo in modelli murini xenograft ortotopici di MB. I risultati hanno dimostrato un’ottima inibizione della crescita in linee cellulari di MB, accompagnata da una riduzione della trascrizione genica e dei livelli proteici di MYCN. Inoltre, sono stati confermati tramite RT-PCR alcuni dei geni trovati significativamente variati nell’esperimento di microarray , dopo il trattamento. Molto interessanti sono stati geni quali BIRC5, che risulta down regolato mentre il gene p21 risulta up regolato in tutte le linee cellulari di MB utilizzate. Inoltre, sono stati generati modelli murini di MB utilizzando cellule precedentemente trasfettate per esprimere il gene della luciferasi e valutarne così la crescita tumorale tramite imaging bioluminescente in vivo (BLI), al fine di poter testare l’attività antitumorale data dagli oligonucleotidi. I risultati hanno dimostrato una buona risposta al trattamento come rilevato dalla tecnica di BLI. I dati preliminari prodotti, dimostrano che MYCN potrebbe esser un buon target per la terapia del MB nei casi in cui è overespresso. In particolare, una sua inibizione potrebbe presentare effetti indesiderati moderati in quanto è poco espresso dopo la nascita.
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In questa tesi sono illustrate alcune sperimentazioni finalizzate alla standardizzazione del ciclo produttivo della sogliola comune (Solea solea) in cattività. E’ stato creato un parco di riproduttori selvatici ed è stata standardizzata la riproduzione ad un livello compatibile con la realtà produttiva del settore. Indagini genetiche di assegnazione parentale hanno evidenziato come alcuni esemplari siano stati predominanti negli accoppiamenti e nel conseguente contributo alla generazione della prole. Ciò ha determinato una diminuzione della variabilità genetica dei discendenti. La composizione quali-quantitativa degli acidi grassi delle uova è stata correlata con la sopravvivenza larvale nel corso di un’intera stagione riproduttiva. Tale composizione non ha subito importanti variazioni su scala temporale e sembra essere stata influenzata dall’alimentazione somministrata ai riproduttori nel periodo precedente alla riproduzione. Le analisi di interazione tra momento riproduttivo e qualità delle uova hanno confermato che è stato possibile ottenere uova di buona qualità in termini di sopravvivenza larvale nel corso di tutta la stagione riproduttiva. Larve di sogliola sono state svezzate precocemente 13 giorni dopo la schiusa riducendo l’impiego di cibo vivo a favore di micro diete commerciali. Tale svezzamento ha ridotto le performance di accrescimento, ma non la sopravvivenza e lo sviluppo della metamorfosi quando comparati ad un trattamento standard. La riduzione del cibo vivo ha ottimizzato i costi di produzione e migliorato l’igiene in vasca. L’ontogenesi di precursori di enzimi digestivi è stata determinata tramite PCR quantitativa. I risultati di espressione di tripsinogeno, chimotripsinogeno e amilasi hanno mostrato come tali enzimi rivestano un ruolo chiave nei processi digestivi delle prime fasi larvali. Esemplari giovanili hanno ottenuto un significativo maggiore indice di accrescimento e migliore indice di conversione quando alimentati con diete sperimentali contenenti un elevato tenore proteico. Un aumento dell’incidenza di vacuoli lipidici a livello epatico è stato osservato all’aumentare del tenore proteico della dieta.
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Hypoxia-inducible factor-1 alpha (HIF-1α) plays a critical role in survival and is associated with poor prognosis in solid tumors. The role of HIF-1α in multiple myeloma is not completely known. In the present study, we explored the effect of EZN2968, an locked nucleic acid antisense oligonucleotide against HIF-1α, as a molecular target in MM. A panel of MM cell lines and primary samples from MM patients were cultured in vitro in the presence of EZN2968 . Under normoxia culture condition, HIF-1α mRNA and protein expression was detectable in all MM cell lines and in CD138+ cells from newly diagnosed MM patients samples. Significant up-regulation of HIF-1α protein expression was observed after incubation with IL6 or IGF-I, confirming that HIF-1α can be further induced by biological stimuli. EZN2968 efficiently induces a selective and stable down-modulation of HIF-1α and decreased the secretion of VEGF released by MM cell. Treatment with EZN2968 gave rise to a progressive accumulation of cells in the S and subG0 phase. The analysis of p21, a cyclin-dependent kinase inhibitors controlling cell cycle check point, shows upregulation of protein levels. These results suggest that HIF-1α inhibition is sufficient for cell cycle arrest in normoxia, and for inducing an apoptotic pathways.. In the presence of bone marrow microenvironment, HIF-1α inhibition blocks MAPK kinase pathway and secretion of pro-surviaval cytokines ( IL6,VEGF,IL8) In this study we provide evidence that HIF-1α, even in the absence of hypoxia signal, is expressed in MM plasma cells and further inducible by bone marrow milieu stimuli; moreover its inhibition is sufficient to induce a permanent cell cycle arrest. Our data support the hypothesis that HIF-1α inhibition may suppress tumor growth by preventing proliferation of plasma cells through p21 activation and blocking pro-survival stimuli from bone marrow microenvironment.
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Recenti analisi sull’intero trascrittoma hanno rivelato una estensiva trascrizione di RNA non codificanti (ncRNA), le quali funzioni sono tuttavia in gran parte sconosciute. In questo lavoro è stato dimostrato che alte dosi di camptotecina (CPT), un farmaco antitumorale inibitore della Top1, aumentano la trascrizione di due ncRNA antisenso in 5’ e 3’ (5'aHIF-1α e 3'aHIF-1α rispettivamente) al locus genico di HIF-1α e diminuiscono i livelli dell’mRNA di HIF-1α stesso. Gli effetti del trattamento sono Top1-dipendenti, mentre non dipendono dal danno al DNA alla forca di replicazione o dai checkpoint attivati dal danno al DNA. I ncRNA vengono attivati in risposta a diversi tipi di stress, il 5'aHIF-1α è lungo circa 10 kb e possiede sia il CAP in 5’ sia poliadenilazione in 3’ (in letteratura è noto che il 3'aHIF-1α è un trascritto di 1,7 kb, senza 5’CAP né poliadenilazione). Analisi di localizzazione intracellulare hanno dimostrato che entrambi sono trascritti nucleari. In particolare 5'aHIF-1α co-localizza con proteine del complesso del poro nucleare, suggerendo un suo possibile ruolo come mediatore degli scambi della membrana nucleare. È stata dimostrata inoltre la trascrizione dei due ncRNA in tessuti di tumore umano del rene, evidenziandone possibili ruoli nello sviluppo del cancro. È anche noto in letteratura che basse dosi di CPT in condizioni di ipossia diminuiscono i livelli di proteina di HIF-1α. Dopo aver dimostrato su diverse linee cellulari che i due ncRNA sopracitati non potessero essere implicati in tale effetto, abbiamo studiato le variazioni dell’intero miRnoma alle nuove condizioni sperimentali. In tal modo abbiamo scoperto che il miR-X sembra essere il mediatore molecolare dell’abbattimento di HIF-1α dopo trattamento con basse dosi di CPT in ipossia. Complessivamente, questi risultati suggeriscono che il fattore di trascrizione HIF-1α venga finemente regolato da RNA non-codificanti indotti da danno al DNA.
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Hypoxie ist ein Zustand des Sauerstoffmangels, hervorgerufen durch fehlende Verfügbarkeit von Sauerstoff in der Umgebung eines Organismus oder durch pathologisch bedingte unzureichende Nutzbarkeit des Sauerstoffs von Geweben. Die Sensitivität gegenüber Hypoxie variiert enorm im Tierreich zwischen verschiedenen Phyla und Spezies. Die meisten Säugetiere sind nur unzureichend an niedrige Sauerstoffkonzentrationen angepasst, wohingegen einige unterirdisch lebende Säuger sehr resistent gegen Hypoxiestress sind. Um die molekulare Basis der Hypoxietoleranz zu bestimmen, wurden in der vorliegenden Arbeit Globine untersucht, die potenziell in der Lage sind, als respiratorische Proteine zur Hypoxietoleranz von Tieren beizutragen. Dazu wurde die Expression der Globine in der hypoxieresistenten, in Israel lebenden Blindmaus Spalax ehrenbergi mit der Genexpression in der hypoxiesensitiven Ratte (Rattus norvegicus) verglichen. In der vorliegenden Arbeit wurden die erst vor wenigen Jahren entdeckten Globine Neuroglobin und Cytoglobin untersucht, deren exakte physiologische Rolle noch unklar ist, und mit Daten des viel detaillierter untersuchten Myoglobins verglichen. Beim Vergleich der Expression von Cytoglobin und Neuroglobin in Spalax versus Ratte fällt auf, dass Neuroglobin und Cytoglobin bereits unter normoxischen Bedingungen auf mRNA- und Proteinebene in der Blindmaus um einen Faktor von mindesten 2 bis 3 verstärkt exprimiert werden. Bei Myoglobin (als dem Kontrollgen mit bekannter Funktion) konnte auf mRNA-Ebene eine noch weitaus stärkere Expression in Spalax vs. Ratte gefunden werden. Das übergreifende Phänomen der verstärkten Genexpression von Globinen in Spalax kann im Sinne einer Präadaptation an das unterirdische, häufig hypoxische Leben der Blindmaus interpretiert werden. Einen weiteren Hinweis auf eine besondere, spezialisierte Funktion von Neuroglobin in Spalax geben immunhistochemische Daten, die zeigen, dass Neuroglobin im Gehirn von Spalax im Gegensatz zur Ratte nicht nur in Neuronen, sondern auch in Gliazellen exprimiert wird. Dies impliziert Änderungen des oxidativen Stoffwechsels im Nervensystem der hypoxietoleranten Spezies. Die zellulären Expressionsmuster von Cytoglobin erscheinen hingegen in beiden Säugerspezies weitgehend identisch. Es wurde der Frage nachgegangen, ob und wie experimentell induzierte Hypoxie die Genexpression der Globine verändert. Dabei zeigten sich für Neuroglobin und Cytoglobin unterschiedliche Expressionsmuster. Neuroglobin wird unter diversen Sauerstoffmangelbedingungen sowohl in der Ratte als auch in Spalax auf mRNA- und Proteinebene herunterreguliert. Ein ähnliches Regulationsverhalten wurde auch für Myoglobin beobachtet. Die verminderte Expression von Neuroglobin (und evtl. auch Myoglobin) unter Hypoxie ist mit einer gezielten Verringerung der Sauerstoff-Speicherkapazität in Abwesenheit von O2 zu erklären. Ein weiterer denkbarer Grund könnte auch die allgemeine Tendenz sein, unter Hypoxie aus Energiespargründen den Metabolismus herunter zu regulieren. Cytoglobin, das bei normalen Sauerstoffbedingungen nur im Gehirn von Spalax (nicht jedoch in Herz und Leber) ebenfalls um Faktor 2 bis 3 stärker exprimiert wird als in der Ratte, ist mit einiger Sicherheit ebenfalls von adaptivem Nutzen für die Anpassung von Spalax an niedrige Sauerstoffbedingungen, wenngleich seine Funktion unklar bleibt. Unter Hypoxie wird die Cytoglobin-mRNA sowohl in Spalax als auch in der Ratte hochreguliert. Es konnte in der vorliegenden Arbeit dargelegt werden, dass die Expression von Cygb höchstwahrscheinlich durch den Transkriptionsfaktor Hif-1 gesteuert wird, der die molekulare Hypoxieantwort vieler Tierarten zentral steuert. In der vorliegenden Arbeit wurde ebenfalls die Expression von Ngb und Cygb im Gehirn des Hausschweins (Sus scrofa) untersucht. Diese Spezies diente in der Arbeit als weiterer hypoxiesensitiver Organismus sowie als biomedizinisch relevantes Modell für eine Operation an Säuglingen mit angeborenen Herzkrankheiten. Die Versuche haben gezeigt, dass die Gabe bestimmter Medikamente wie dem Immunsuppressivum FK506 zu einer erhöhten Ngb-Konzentration auf mRNA-Ebene führen kann, was potenziell im Zusammenhang mit beobachteten protektiven Effekten der Medikamentengabe während und nach der Herzoperation steht.
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Die am häufigsten auftretende altersassoziierte neurodegenerative Krankheit ist die Alzheimer Demenz. Ein mit entscheidender Schritt bei der Entstehung der Alzheimer Erkrankung ist wahrscheinlich die Produktion des Aβ-Peptids durch proteolytische Spaltung das Amyloid-Vorläuferproteins APP. In der vorliegenden Arbeit wurde die altersabhängige Prozessierung des Amyloid-Vorläuferproteins (APP) in Fibroblasten von Hautbiopsien von Familiärer Alzheimer-, Trisomie21 und Niemann-Pick Typ C-Krankheit untersucht. Die in dieser Arbeit verwendeten Fibroblasten wurden bis zum Erreichen des zellulären Wachstumsstopps (replikative Seneszenz) seriell passagiert und die Untersuchungen erfolgten an Zellen aufsteigender PDL. Dabei zeigte sich, dass, unabhängig von dem durch die Krankheit vorliegenden genetischen biochemischen Hintergrund, die APP-Prozessierung im Laufe der Zellalterung progressiv verringert wird. Die altersabhängig ansteigenden Cholesterinspiegel führten zu einer Reduktion der APP-Reifung und infolge dessen nahmen sowohl die intrazellulären APP-Spaltfragmente (C99, C83 und AICD) als auch die extrazellulären APP-Fragmente (sAPPα, sAPP) ab. Ebenso konnte gezeigt werden, dass die γ-Sekretase-Aktivität abnimmt. Dies war verbunden mit einem Rückgang der Proteinspiegel von Nicastrin und Presenilin, beides Komponenten des γ-Sekretase-Komplexes. Obwohl die Proteinexpression der α-Sekretase ADAM10 altersassoziiert konstant blieb, nahm die α-Sekretase-Aktivität mit steigendem Lebensalter ab. Erste Untersuchungen zeigten, dass die NAD+-abhängige Histon-Deacetylase SIRT1 eine wichtige Rolle im Bezug auf die α-Sekretase-Aktivität spielen könnte. Im Gegensatz zu den Abnahmen der α- und γ-Sekretase-Aktivitäten konnte eine erhöhte Aktivität der β-Sekretase in seneszenten Zellen beobachtet werden. Die mRNA-Menge und Proteinspiegel der ß-Sekretase BACE1 blieben dabei unverändert. Des Weiteren zeigte sich eine Zunahme der β-Sekretase-Aktivität bei Behandlung von jungen Zellen mit konditioniertem Medium seneszenter Zellen. Da sensezente Zellen einem Proliferationsstopp in der G1-Phase unterliegen, wurde der Einfluss des Zellzyklus-Inhibitors Aphidicolin auf die β-Sekretase untersucht. Hier wurde sowohl in IMR90 Fibroblasten als auch in Neuroblastoma-Zellen N2a eine Zunahme der β-Sekretase-Aktivität nach Zugabe der Inhibitoren beobachtet. Auch kommt es im Zuge der Alterung zu einer verstärkten Expression inflammatorischer Zytokine, die mit der Entstehung von Aβ-Peptiden in Verbindung gebracht werden. Deshalb wurde der Einfluss von Zytokinen auf die β-Sekretase-Aktivität untersucht. Die Zugabe von Interferon-γ und Interleukin 6 führte bei jungen IMR90-Zellen zu einem Anstieg der β-Sekretase-Aktivität, während bei alten Zellen keine Änderung zu verzeichnen war.
