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471	Sulforaphan und Selen : Einfluss auf Phase II Enzyme und Selenoproteine sowie deren Effekt auf die entzündungsvermittelte Dickdarmkanzerogenese / Sulforaphane and Selenium : impact on phase II enzymes and selenoproteins, and the effect on the inflammation triggered colon carcinogenesis Löwinger, Maria January 2010 (has links) Das ITC SFN und der Mikronährstoff Se sind bekannt als chemopräventive Inhaltsstoffe von Gemüse der Brassica-Familie, welcher auch Brokkoli angehört. Die Wirkungen von sowohl SFN als auch Se beruhen auf zahlreichen verschiedenen Mechanismen. Es existieren jedoch Schnittstellen, an welchen Interaktionen beider Substanzen möglich sind. Basierend auf diesem Wissen wurden in dieser Arbeit Wechselwirkungen zwischen SFN und Se auf die Aktivität sowie Expression von Phase II Enzymen und Selenoproteinen untersucht. Der Einfluss der Kombination von SFN und Se auf die unter physiologischen Bedingungen stattfindende Proliferation und Apoptose war ebenso Gegenstand der Arbeit wie die Modulation von Entzündungsprozessen sowie der Tumorentstehung während der entzündungsverstärkten Colonkanzerogenese im Mausmodell. Das hinsichtlich seiner Wirksamkeit mit aus GRA hydrolysiertem SFN zunächst als vergleichbar befundene synthetische SFN wurde für die Untersuchung im AOM/DSS-induzierten Colontumormodell gewählt und in Kombination mit 3 verschiedenen Selendiäten verabreicht. Der Einfluss von SFN und Se auf Phase II Enzyme und Selenoproteine entlang des GIT war organabhängig und nach 4 Wochen geringer als nach 7 Tagen. Die schwächere Induktion deutet auf eine Anpassung des Organismus hin. Ein SFN-vermittelter Effekt auf NQO1 war im Selenmangel am deutlichsten. Die Aktivität des Selenoproteins TrxR wurde hingegen erst bei ausreichender Selenversorgung durch SFN beeinflusst. Die als Nrf2-Zielgen bekannte und in der Hierarchie der Selenoproteine einen hohen Rang einnehmende GPx2 konnte in bestimmten Organen bereits unter selenarmen Bedingungen durch SFN induziert werden. Eine Überexpression des Enzyms war jedoch nicht möglich. SFN steigerte, unabhängig vom Selenstatus, im oberen Abschnitt des GIT und im Colon die Aktivität der GST. Eine Induktion des eigenen Metabolismus wäre somit denkbar. Im Falle eines Mangels an GPx2 wurde GPx1 bei hinreichender Selenversorgung stärker exprimiert, allerdings konnte sie die Funktion von GPx2 nicht völlig erset-zen. Im Selenmangel kann die Aktivitätssteigerung der TrxR im Dünndarm, dem Ab-schnitt der Selenabsorption, als ein Versuch der GPx2-Kompensation angesehen werden. SFN war nicht in der Lage, über eine Aktivierung des Nrf2/ARE-Signalweges kompensatorische Effekte zu induzieren. Apoptotische Prozesse wurden unter physiologischen Bedingungen nur marginal durch SFN und Se moduliert. Das elektrophile ITC konnte lediglich im Selenmangel Apoptose im luminalen Bereich der Colonkrypten induzieren. Die durch supranutritive Selenkonzentration induzierte Apoptose im Kryptengrund wurde nicht durch SFN beeinflusst. Einer bei Abwesenheit der GPx2 erhöhten Apoptoserate im Kryptengrund wirkte SFN bei adäquater Selenversorgung entgegen, war indessen proapoptotisch unter selendefizienten Konditionen. Der Einfluss von SFN auf die Entzündung war deutlich abhängig vom Selenstatus. Während SFN im Selenmangel anscheinend prooxidative Prozesse induzierte und die Entzündungssymptome verschlimmerte, wirkte es unter adäquatem Selenstatus an-tiinflammatorisch. Den vergleichsweise milden Grad der Entzündung im selensupplementierten Status konnte SFN nicht zusätzlich beeinflussen. SFN veränderte die Inzi-denz colorektaler Tumore nicht. Ein, die Tumorinitiation blockierender SFN-Effekt durch direkte Hemmung der metabolischen Aktivierung des Prokanzerogens im selenadäquaten Zustand scheint offensichtlich. Eine Überversorgung mit Se kann protektiv im Hinblick auf Entzündung oder Colonkanzerogenese sein, jedoch bewirkt SFN keinen zusätzlichen Schutz. Kombinationseffekte von SFN und Se in Bezug auf Phase II Enzyme, Selenoproteine und Apoptose sowie die entzündungsverstärkte Colonkanzerogenese sind nicht eindeutiger Natur und können, abhängig vom Endpunkt, synergistische oder antagonistische Züge aufweisen. Eine bei Selendefizienz deutlichere Wirkung von SFN kann mit Hilfe der gesteigerten Aktivierung von Nrf2 erklärt werden, dies muss jedoch nicht von Vorteil sein. Bei adäquater Selenversorgung kann SFN kurzfristig antiinflammatorische und antikanzerogene Prozesse induzieren. Von einer längerfristigen ständigen SFN-Aufnahme in Form von GRA-reichen Brassicacea ist jedoch abzuraten, da von einer Adaptation auszugehen ist. Die Wirkung von SFN innerhalb der komplexen Pflanzenmatrix bleibt Gegenstand zukünftiger Untersuchungen. / Sulforaphane (SFN), a versatile actor derived from broccoli or other brassicaceae, is proposed to be a dietary anticarcinogen. Together with an adequate selenium status, it has been associated with a decreased risk for developing certain forms of cancer. In our mouse model, we investigate the influence of SFN and Se on the expression and activity of selenoproteins and phase II enzymes as well as the effects on inflammation triggered colon carcinogenesis. SFN increased NQO1 activity and protein expression significantly in the ileum, in both, Se-deficiently and Se-adequately fed animals. TrxR activity was increased in Se-adequately compared to Se-deficiently fed mice, SFN positively affected TrxR activity only in the former ones. An increase of GPx2 protein expression by SFN was observed in the ileum of mice of both diets. GPx1 reacts sensitively on Se supply. GST was the only enzyme analyzed being significantly increased by SFN on activity level in the colon. All AOM/DSS treated animals showed an inflammation, which was attenuated by SFN within Se-adequacy. In contrast, Se-deficient animals showed a more severe inflammation. The administration of SFN therefore seemed to enhance this even more and to be not beneficial in this case. SFN inhibited colon carcinogenesis in Se-adequate mice when being administered together with AOM. To summarize, both, GPx2 and TrxR, require selenium in order to be synthesized. In contrast to TrxR, the SFN-mediated induction of GPx2, the highest ranking selenoprotein, does not depend on additional selenium supply. Whereas distinct effects by SFN were observed in the ileum, only GST was influenced by SFN in the colon. SFN seems to induce its own metabolism. In conclusion, SFN and Se attenuate inflammation and colon carcinogenesis, preferably by means of up-regulating the endogenous defense system and inhibiting the metabolic activation of AOM. Sulforaphan Selen Dickdarmkanzerogenese Phase II Enzyme Selenoproteine sulforaphane selenium colon carcinogenesis phase II enzymes selenoproteins Life sciences
472	Expression Profiling Of Genes Regulated By TGF-β : Role Of Multiple Signaling Pathways Ranganathan, Prathibha 05 1900 (has links) Transforming growth factor-β (TGF-β) is the proto-type member of a super family of secreted proteins comprised of several structurally related, but functionally divergent proteins like the BMP, activin, inhibin, mullerian inhibitory substance etc. TGF-β was originally identified as a secreted factor, which in the presence of EGF was capable of transforming normal rat kidney fibroblasts. Studies over the years have shown that this protein is multifunctional that influences several processes including development, immune function, epithelial cell growth and motility, wound healing etc. TGF-β plays important role in the normal physiology as well as in pathological conditions in mammals. There are three mammalian isoforms that are involved in several developmental processes as has been shown by the knockout mice models. An important role for TGF-β has been implicated in several disease processes like fibrotic disorders (of liver, lung, kidney), inflammatory disorders (rheumatoid arthritis), autoimmune disorders (systemic lupus erythematosus) and cancer. TGF-β has a dual role in carcinogenesis. Initially it acts as a tumor suppressor and causes growth arrest of epithelial cells and cells in the early stages of cancer. But in an established tumor, TGF-β exerts an effect which is favorable for the survival, progression and metastasis of the tumor by promoting epithelial-mesenchymal transition (EMT), angiogenesis and escape from immune surveillance. Studies using mouse models have shown that an intact TGF-β signaling is essential for the metastasis of breast cancer. These observations indicate that the normal epithelial cells show differential response to TGF-β as compared to the tumor they give rise to. Supporting this, it has been shown that prostate tumor cells show invasive behavior in response to TGF-β and not non-tumorigenic cells. Most actions of TGF-β are brought about by regulation of gene expression and differential gene expression mediated by TGF-β has been reported in tumor cells and normal cells. For example, in response to TGF-β, tumorcells show increase in the production of proteases like uPA, MMPs etc and down regulation of the inhibitors of proteases TIMP isoforms, whereas this is not observed in the normal cells. However, there is no clear understanding of the mechanism (s) responsible for differential responses of various cell types to TGF-β. Since a role for TGF-β has been established in several pathological conditions particularly cancer and fibortic disorders, this pathway are a very attractive target for therapeutic intervention. Hence, if the TGF-β pathway has to be targeted for therapy of any disease, it becomes essential to identify the targets of TGF-β in different cell-types and their mechanism of regulation, particularly in un-transformed and transformed cells. Over the past few years, there have been several independent transcriptome analyses of cells in response to TGF-β treatment in various cell types such as HaCaT, fibroblasts, corneal epithelial cells etc. From a comparison of these studies, it is noted that TGF-β regulates genes in a cell type specific manner. Considering the dual role of TGF-β on normal and transformed cells, identification of genes and/or biochemical pathways regulated by TGF-β in these cells may allow identification of therapeutic targets for diseases involving TGF-β signaling pathway. With this background, the following objectives were set for the current investigation: 1. Identification of targets of TGF-β in normal and tumor cells and also the genes differentially regulated by TGF-β 2. Understand the mechanism of regulation of a few selected genes 3. Characterize novel targets of TGF-β with respect to their regulation by TGF-β and also their function Towards the aim of identification of targets of TGF-β in different cell-lines, expression profiling of genes in response to TGF-β was performed in a lung adenocarcinoma cell line (A549) and a matched immortalized lung epithelial cell line (HPL1D). Our data showed similar regulation of 267 genes in HPL1D and A549 cells by TGF-β. This suggests that the genes commonly regulated in both HPL1D and A549 are not tumor specific. Some of these genes were also reported to be regulated by TGF-β in other studies using micro array in various cell types. While 1757 genes are exclusively regulated by TGF-β in A549, only 733 genes are exclusively regulated in HPL1D cells. The reasons for this differential response are not known. However, some of the genes exclusively regulated in A549 such as Integrin αV, thrombospondin 1 have been shown to aid tumor survival, maintenance and metastasis. In contrast, in HPL1D, TGF-β regulates tumor suppressor genes like WT1, ECM proteins like collagen which are responsible for arrest of cell growth and apoptosis. This differential gene regulation in normal and tumor cells may explain the dual role of TGF-β in carcinogenesis. The differences in the effects of TGF-β on these two cell-lines could be due to the phenotypic properties of these cells, HPL1D being a non-transformed cell-line and A549 being a transformed cell-line. It is also possible that the differences are due to cell-type specific effects. In order to address this question, expression profiling in response to TGF-β was carried out using another cell-line namely HaCaT, which is an immortalized skin keratinocyte cell-line. When the expression profiles of the three celllines namely HPL1D, HaCaT and A549 in response to TGF-β treatment were compared, it was found that the genes regulated by TGF-β can be divided into seven categories based on the cell-line in which they are regulated. In this comparison, it was seen that there were several genes which were regulated by TGF-β in A549 and HaCaT despite the fact that these two cell-lines have little in common. The reason for these two celllines to show similarities in their gene expression profile in response to TGF-β is unclear. When the genes regulated by TGF-β in the three cell-lines were categorized based on their annotated functions using the DAVID tool, it was found that signaling pathways like MAP kinas, focal adhesion, Wnt signaling are regulated by TGF-β in all the celllines. On the other hand, Integrin αV was found to be regulated in A549 and HaCaT cells and very marginal regulation was seen in HPL1D cells. This could be one of the reasons for the similarities between A549 and HaCaT. There are studies which show the role of Integrin αV in some of the TGF-β mediated actions although the mechanism by which Integrin signaling modulates gene expression is not well understood. Our data shows that indeed thrombospondin 1 which is regulated by TGF-β in A549 and HaCaT is regulated through the integrin signaling pathways as blocking this pathway partially blocks the induction of this gene by TGF-β. TGF-β actions on cells are to a large extent are carried out by the phosphorylation of SMAD 2/3 by activated TGF-β type I receptor upon TGF-β signaling. Several genes that are transcriptionally regulated by TGF-β contain a SMAD complex binding element (SBE). However, over the last few years, evidences have accumulated which suggest that some actions of TGF-β could be independent of SMADs, mediated by the other signaling pathways like the MAP kinas, PKC and others. In order to understand the mechanism of regulation of a few selected genes by TGF−β, inhibitors for the three MAP kinas pathways (p38, ERK and JNK) were used prior to treatment with TGF-β. The expression of these genes was assessed by qRT-PCR analyses. These studies showed that most of the genes regulated by TGF-β require one or more of the MAP kinas pathways. In HaCaT and A549, the number of genes dependent on the MAP kinas pathways is more compared to HPL1D. Based on our data, we propose that activated MAP kinas pathway could be one of the essential determining factors for the various differential actions of TGF-β in tumor cells. However, the reason for the behaviour of HaCaT cells, which are untransformed cells in a manner similar to the A549 cells, is still unclear. One of the reasons for the similarity could be the activation of the integrin signaling pathway as described before. The expression profiling data identified several novel targets of TGF-β. One such target is S100A2, a calcium binding protein containing an EF hand motif that has been implicated in cancer. A progressive reduction in the expression of this gene has been reported with increasing grade of the tumor. Our studies show that this gene is regulated by TGF-β in HaCaT and HPl1D, but not in A549 cells. The induction of S100A2 by TGF-β in HaCaT cells is likely to be transcriptional as it is sensitive to actinomycin treatment. We further investigated role of other signaling pathways in the regulation of S100A2 by TGF-β and found that the regulation of this gene by TGF-β depends on the ERK and also the integrin signaling pathways. In order to characterize this gene with respect to its functions, A549 cells were chosen as they have very low endogenous expression of S100A2. Hence, in order to explore if there is any role for the loss of S100A2 expression in the progression of A549 cells, we cloned the DNA of S100A2 in a mammalian expression vector, transected A549 cells with this and isolated clones stably expressing this gene. We performed assays to assess cell proliferation, cell migration and potential to form colonies in soft agar. The data suggests phenotypic differences in the colonies that formed in soft agar and no major differences in other assays. Overall, our data has identified several novel targets regulated by TGF-β other than S100A2 like IGFBP7, FGFR1, and SPUVE etc. Further, regulation of several genes was found to be in a cell type specific manner involving MAP kinase and integrin signaling pathways. This study also identified major differences in the genes regulated by TGF-β in transformed and non-transformed lung epithelial cells. Gene Expression Signal Transduction Gene Regulation Transforming Growth Factor-β Protein Kinase MAP Kinase TGF-β - Carcinogenesis Biochemical Genetics
473	Molecular and Biological Characteristics of Stroma and Tumor Cells in Colorectal Cancer Gao, Jingfang January 2008 (has links) Carcinogenesis is a progressive process involving multiple genetic alterations in tumor cells and complex interactions in the tumor-host microenvironment. To better understand the contribution of molecular alterations in tumor cells and stromal variables to the development of colorectal cancer (CRC) and identify prognostic factors, in this study we examined the clinicopathological and biological significance of stromal variables, including particularly interesting new cysteine-histidine rich protein (PINCH), inflammatory infiltration, angiogenesis and lymphangiogenesis, as well as hRAD50/hMRE11/hNBS1 proteins and hRAD50 mutation in tumor cell in CRC. PINCH protein expression in the stroma was increased from normal mucosa to primary tumors and further to lymph node metastases. In particular, PINCH expression was most intense at the tumor invasive margin, which was related to low inflammatory infiltration and independently related to an unfavorable prognosis. Low inflammatory infiltration at the tumor invasive margin was related to advanced tumor stage, worse differentiation and microsatellite instability (MSI). Further, it was independently related to an unfavorable prognosis. Increased blood and lymphatic vessel density was observed in the primary tumors compared with the corresponding normal mucosa. However, neither angiogenesis nor lymphangiogenesis was associated with tumor stage and patients’ survival. Moreover, PINCH was present in a proportion of endothelial cells of the tumor vasculature, and PINCH expression in tumor-associated stroma was positively related to blood vessel density. In primary tumor cells of CRC, strong expression of hRAD50, hMRE11 or hNBS1 was related to microsatellite stability (MSS). A high percentage of hMRE11 expression was associated with less local recurrence and high apoptotic activity. Further, we observed that the expression of hRAD50, hMRE11 or hNBS1 among normal mucosa, primary tumors and metastases in MSS CRC differed from that in MSI CRC. In MSS CRC, the expression intensity of hRAD50, hMRE11 and hNBS1 was consistently increased with respect to normal mucosa, but there was no difference between the primary tumors and metastases. In the primary MSS tumors, the expression of individual or combination of hRAD50/hMRE11/hNBS1 was associated with a favorable prognosis in the same series of the CRCs. Moreover, strong/high hRAD50 in MSS primary tumors was related to earlier tumor stage, better differentiation and high inflammatory infiltration, whereas strong hNBS1 expression tended to be independently related to a favorable prognosis in MSS CRC with earlier tumor stage. However, in MSI CRC, there were neither differences in the expression of hRAD50/hMRE11/hNBS1 among normal mucosa, primary tumors and metastases, nor any association of the protein expressions with clinicopathological variables. On the other hand, frameshift mutations of (A)9 at coding region of hRAD50 were only found in MSI CRC. Our study indicates that 1) PINCH is likely a regulator of angiogenesis, and PINCH expression at the tumor invasive margin is an independent prognostic indicator in CRC. 2) Inflammatory infiltration at the tumor invasive margin is also an independent prognostic indicator in CRC. The lack of association between high inflammatory infiltration and MSI may help to explain the non-association of MSI with survival in CRC patients. 3) Angiogenesis and lymphangiogenesis occur in the early stage of CRC development, but do not associate with CRC progression and patients’ prognosis. 4) hRAD50/hMRE11/hNBS1 may act dependently and independently, playing different roles in MSS and MSI CRC development. In MSS CRC, the strong expression of the three proteins, associated with a favorable prognosis, may present the cellular response against tumor progression. Expression of hNBS1 may be a prognostic indicator for MSS CRC patients in the earlier tumor stage. In MSI CRC, the frameshift mutations at the coding region of hRAD50 may contribute to tumor development. Carcinogenesis genetic alterations colorectal cancer (CRC) cysteine-histidine rich protein (PINCH) Inflammatory infiltration Angiogenesis lymphangiogenesis Oncology Onkologi
474	Immunhistochemischer Nachweis des Expressionsverhaltens der Gap-Junction-Strukturproteine (26,43,45) in oralen Plattenepithelkarzinomen des DMBA-induzierten Wangentaschenkarzinoms des Hamsters / Immunohistochemical identification of the expression behavior of gap junction structural proteins (26,43,45) in oral squamous cell carcinoma of DMBA-induced cheek pouch carcinoma of the hamster Ziegler, Johannes 11 March 2015 (has links) No description available. 610
475	Μελέτη της έκφρασης του πρωτεϊνικού συμπλέγματος ΙLK-PINCH-Parvin (IPP) και της πρωτεΐνης RSU1 στο μη-μικροκυτταρικό καρκίνωμα του πνεύμονα στον άνθρωπο Νίκου, Σοφία 22 May 2015 (has links) Το ετεροτριμερές πρωτεϊνικό σύμπλεγμα IPP (ILK-PINCH-Parvin) εντοπίζεται στις εστιακές συνδέσεις και ρυθμίζει την σηματοδότηση από την εξωκυττάρια ουσία μέσω ιντεγκρινών και αυξητικών παραγόντων, αλληλεπιδρώντας με τον κυτταροσκελετό ακτίνης και με ποικίλες σηματοδοτικές οδούς. Οι πρωτεΐνες του συμπλεγματος IPP ελέγχουν σημαντικές κυτταρικές λειτουργίες όπως ο πολλαπλασιασμός, η επιβίωση, η κυτταρική κίνηση-μετανάστευση και ενέχονται σημαντικά στην καρκινογένεση (Legate et al., 2006). Συγκεκριμένα η πρωτεΐνη ILK (integrin-linked kinase) έχει συσχετιστεί με την εξέλιξη-προαγωγή του όγκου και δυσμενή πρόγνωση στο μη μικροκυτταρικό καρκίνωμα του πνεύμονα (Ζhao et al., 2013). Η πρωτεΐνη Ras supressor protein 1 (Rsu-1), γνωστή για την ογκοκατασταλτική της δράση και την συμμετοχή της στη σηματοδοτική οδό του ογκογονιδίου Ras, πρόσφατα βρέθηκε οτι αλληλεπιδρά με την πρωτεΐνη PINCH του ΙPP συμπλέγματος και μέσω αυτής της αλληλεπίδρασης ρυθμίζει διεργασίες όπως η κυτταρική μετανάστευση και διήθηση(Gonzalez-Nieves et al., 2013). Σκοπός της παρούσας μελέτης είναι η διερεύνηση του ρόλου του IPP συμπλέγματος και της πρωτεΐνης Rsu-1 στο μη μικροκυτταρικό καρκίνωμα του πνεύμονα στον άνθρωπο καθώς και της συμμετοχής του ΙPP συμπλόκου στην σηματοδότηση από το ογκογονιδίο Ras. Για το σκοπό αυτό μελετάται η πρωτεϊνική έκφραση των ILK, PINCH, α-Parvin, β- Parvin και Rsu-1 1) σε ιστικά δείγματα μη-μικροκυτταρικού καρκινώματος του πνεύμονα σε σχέση με κλινικοπαθολογοανατομικές παραμέτρους της νόσου και 2) σε καρκινικές κυτταρικές σειρές με διαφορετικά επίπεδα ενεργοποίησης της Ras σηματοδότησης. Για τα στοιχεία του ΙΡΡ συμπλέγματος παρατηρήθηκε αυξημένη ανοσοϊστοχημική έκφραση ενώ για την πρωτεΐνη Rsu1 βρέθηκε μειωμένη στα μη μικροκυτταρικά καρκινώματα του πνεύμονα σε σχέση με το μη νεοπλασματικό παρέγχυμα του πνεύμονα. Η έκφραση των ILK και PARVA ήταν σημαντικά υψηλότερη στα χαμηλής διαφοροποίησης νεοπλάσματα και σε όγκους προχωρημένου pT αντίστοιχα. Η έκφραση της πρωτεΐνης PINCH σχετίστηκε στατιστικώς σημαντικά με την παρουσία λεμφαδενικών μεταστάσεων. Δεν παρατηρήθηκε εξάρτηση της πρωτεϊνικής έκφρασης των Rsu-1 και PINCH από τη σηματοδοτική οδό Ras. Τα αποτελέσματα υποστηρίζουν ότι η υπερέκφραση των στοιχείων του ΙΡΡ συμπλέγματος και η μειωμένη έκφραση του Rsu1 ενέχονται στην παθογένεια του καρκίνου του πνεύμονα. / The integrin-linked kinase (ILK)-PINCH-parvin (IPP) complex at integrin adhesion sites is a critical regulator of cell migration, invasion and metastasis. Deregulation of the IPP complex has been implicated in human carcinogenesis (Legate et al, 2006). Recent observations suggest that RSU-1, a protein first identified as a suppressor of v-Ras mediated cell transformation is a PINCH-binding partner that regulates PINCH mediated adhesion and migration (Gonzalez-Nieves et al., 2013). This study aims to evaluate the expression of the IPP complex and RSU-1 in human non-small cell lung carcinomas (NSCLC). Protein expression of ILK, PINCH, alpha-parvin, beta-parvin and RSU-1 in relation to clinicopathological parameters was evaluated by immunohistochemistry in 82 FFPE tissue samples of non-small cell lung cancer (NSCLC). All components of the IPP complex were overexpressed while RSU-1 was downregulated in lung cancer cells compared to non-neoplastic lung parenchyma. ILK and alpha-parvin expression was significantly higher in high grade (p=0.002) and high pT (p=0.047) tumors respectively. Expression of PINCH associated significantly with lymph node metastasis (p=0.045). Our results suggest that overexpression of the IPP complex and downregulation of RSU-1 may be implicated in lung carcinogenesis. Καρκινογένεση 616.994 24 Non small cell lung cancer RSU1 Carcinogenesis
476	Ο ρόλος του φαινομένου της επιθηλιακής προς μεσεγχυματική μετατροπή των κυττάρων στην ανάπτυξη και εξέλιξη του καρκίνου Γιαλμανίδης, Ιωάννης 22 October 2007 (has links) Το φαινόμενο της επιθηλιακής προς μεσεγχυματική μετατροπή είναι μια διδικασία που λαμβάνει χώρα κατά την εμβρυογένση και αφορά στη μετατροπή του φαινοτύπου των επιθηλιακών κυττάρων σε μεσεγχυματικά.Το φαινόμενο αυτό βρέθηκε ότι επανενεργοποιείται κατά τη διαδικασία της καρκινογένεσης και μετέχει στην ανάπτυξη των μεταστάσεων.Στην ανάπτυξη αυτού του φαινομένου συμβάλει η ενεργοποίηση μια σειρά απο σηματοδοτικά μονοπάτια / Epithelial to mesenchymal transition in carcinogenesis and metastasis. ΕΜΤ Καρκινογένεση 616.994 071 ΕΜΤ Epithelial to mesenchymal transition Carcinogenesis Signalling pathways
477	The role of epigenetics in the rat mammary gland Kutanzi, Kristy, University of Lethbridge. Faculty of Arts and Science January 2010 (has links) Epigenetics plays an important role in carcinogenesis with heritable changes in DNA methylation and histone modifications intricately linked to the initiation, promotion, and progression of cancer. Evidence shows that a number of chemical and physical agents can induce epigenetic changes during carcinogenesis. Two such agents, estrogen and ionizing radiation, are generally recognized as being carcinogenic. Yet the epigenetic repercussions of these carcinogens remain relatively unknown. More importantly, the combined effect of these carcinogens has never been addressed in vivo from an epigenetic standpoint. Therefore, we focused on the effect of estrogen and ionizing radiation applied separately or in conjunction. We have found that the exposure to estrogen, either alone or in combination with radiation, induced pronounced morphological alterations, which was paralleled by modifications to the epigenomic landscape in the mammary gland. The results obtained from these rodent models can potentially be extrapolated to humans. / xiv, 190 leaves : ill. (chiefly col.) ; 29 cm Carcinogenesis Estrogen Ionizing radiation Rats as laboratory animals Epigenesis Mammary glands -- Cancer Breast -- Cancer -- Research Dissertations, Academic
478	INVESTIGATION OF THE BIOTRANSFORMATION OF 4-(METHYLNITROSAMINO)-1-(3-PYRIDYL)-1-BUTANONE BY PROSTAGLANDIN H SYNTHASE AND CYTOCHROME P450 2F Fikree, Hana M. 15 January 2008 (has links) The tobacco-specific nitrosamine 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) is believed to play a role in human lung cancer induced by tobacco smoking. NNK biotransformation may involve the enzymes prostaglandin H synthase (PHS)-1, PHS-2 and cytochrome 450 (CYP) 2F. PHS activity is thought to be important in extrahepatic tissues, where CYP activity is low. The CYP2F subfamily contains a single functional enzyme in humans (CYP2F1) and goats (CYP2F3); these enzymes are preferentially expressed in the lung, with little or no expression in other organs. The role of these enzymes in the pulmonary biotransformation of NNK was investigated. 4.2 µM [5-3H]NNK was incubated with human lung microsomes under NADPH-dependent and arachidonic acid-dependent conditions. Metabolites reflective of NNK α-carbon hydroxylation, N-oxidation and carbonyl reduction were detected in the presence of NADPH, and metabolite levels for all three biotransformation pathways were lower in the presence of arachidonic acid compared with NADPH (p<0.05, N=4). Incubation of microsomes with the PHS-1 selective inhibitor SC-560 and the PHS-2 selective inhibitor NS-398 did not change NNK biotransformation either in the presence of NADPH or in the presence of arachidonic acid (p>0.05, N=4). Incubation of [5-3H]NNK with ovine PHS-1 or PHS-2 did not result in formation of α-carbon hydroxylation or N-oxidation metabolites; 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL) was measurable only in the presence of PHS-2. Incubation of goat recombinant CYP2F3 with [5-3H]NNK resulted in formation of keto acid, keto alcohol and NNK-N-oxide (65.0%, 17.5% and 30.0% (µmol enzyme)-1 minute-1, respectively). Metabolite formation was inhibited by 3-methylindole (3-MI), a mechanism-based inactivator of CYP2F3. Based on an N value of 3, incubation of human lung microsomes with 3-MI inhibited N-oxidation (p<0.05) but did not alter NNK bioactivation or carbonyl reduction (p>0.05). However, when metabolite formation was examined in lung microsomes from different individuals, decreases in NNK biotransformation (ranging from 19.6 to 68.5%) were observed and were more pronounced in some patients than others, suggesting inter-individual variability in CYP2F1 activity. These studies demonstrate the ability of CYP2F to biotransform NNK and suggest inter-individual variability in the importance of CYP2F1 for this activity in human lung. They also strongly argue against the involvement of PHS enzymes. / Thesis (Master, Pharmacology & Toxicology) -- Queen's University, 2007-12-30 16:12:58.228 biotransformation pulmonary carcinogenesis prostaglandin H synthases cytochrome P450 human lung
479	Biotransformation and DNA Repair in 4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanone-Induced Pulmonary Carcinogenesis Brown, PAMELA 17 November 2008 (has links) Studies described in this thesis were at aimed at characterizing the mechanisms involved in the pulmonary carcinogenicity of the tobacco-specific nitrosamine, 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK), by addressing two critical determinants of carcinogenicity; biotransformation and DNA repair. The contributions of cytochrome P450 (CYP) 2A13 and CYP2A6 to NNK biotransformation in human lung microsomes were investigated. Based on total bioactivation and detoxification of NNK and its keto-reduced metabolite, 4 (methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL), subjects could be classified as either high or low bioactivators and detoxifiers. Data from all of 29 individuals revealed no correlations between levels of CYP2A mRNA, enzyme activity or immunoinhibition and the degree of total NNK bioactivation or detoxification. However, subgroups were identified for whom CYP2A13 mRNA correlated with total NNK and NNAL bioactivation (n=4) and NNAL detoxification (n=5). Although results do not support CYP2A13 or CYP2A6 as predominant contributors to NNK metabolism in lung of all individuals, CYP2A13 appears to be important in some. The involvement of nucleotide excision repair (NER) in the repair of NNK-induced DNA pyridyloxobutylation was assessed. Extracts from NER-deficient cells were less active at repairing pyridyloxobutyl (POB) adducts on plasmid DNA than were extracts from normal cells, and NER-deficient cells were more susceptible to 4-(acetoxymethylnitrosamino)-1-(3-pyridyl)-1-butanone (NNKOAc)-induced cytotoxicity, demonstrating the participation of NER in the repair of POB-DNA adducts. The role of DNA repair in contributing to inter-organ susceptibility to NNK-induced carcinogenesis was investigated. POB adduct repair was greater in extracts from mouse liver than lung, and activities in lungs of NNK-treated mice were lower than those of saline-treated mice, while repair was 3 times higher in livers of NNK-treated mice relative to control. NNK treatment decreased incision of POB adducts by 92 % in lung extracts and increased incision by 169 % in liver extracts. In addition, NNK altered the levels and binding to POB damage of key incision proteins. These results suggest that lower NER incision activity and NNK-mediated alterations in levels and activities of incision proteins contribute to the relative susceptibility of mouse lung to NNK-induced carcinogenesis. / Thesis (Ph.D, Pharmacology & Toxicology) -- Queen's University, 2008-11-13 14:10:01.603 Biotransformation Cytochromes P450 DNA repair Nucleotide excision repair Pulmonary carcinogenesis
480	Suppression of Chronically Induced Breast Carcinogenesis and Role of Mesenchymal Stem-like Cells Rathore, Kusum 01 December 2011 (has links) Sporadic breast cancers are mainly attributable to long-term exposure to environmental factors, via a multi-year, multi-step, and multi-path process of tumorigenesis involving cumulative genetic and epigenetic alterations in the chronic carcinogenesis of breast cells from a non-cancerous stage to precancerous and cancerous stages. Epidemiologic and experimental studies have suggested that various dietary compounds like green tea and grape seed may be used as preventive agents for breast cancer control. In this research, I have developed a cellular model that mimics breast cell carcinogenesis chronically induced by cumulative exposures to low doses of environmental carcinogens. I used the chronic carcinogenesis model as a target system to investigate the activity of dietary compounds at non-cytotoxic levels in intervention of cellular carcinogenesis induced by cumulative exposures to pico-molar 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) and benzo[a]pyrene (B[a]P). I used various cancer-associated properties like, reduced dependence on growth factors, anchorage-independent growth, increased cell mobility, and acinar-conformational disruption as measurable endpoints of carcinogenesis. The first part (Part-I) of this dissertation focuses on the understanding the breast cancer progression, importance of environmental carcinogens, role of diet in cancer prevention and importance of epithelial to mesenchymal transition and stem-like cells in chronic carcinogenesis. The next three parts (Part II-IV) focus on understanding the role and mechanisms of dietary compounds in prevention of carcinogenesis and stem-like cell properties. Results in part II revealed the green tea extract at bio-achievable concentration can suppress carcinogen-induced cancerous properties. In Part-III, I compared the four major catechins in green tea extract in suppressing chronic carcinogenesis and the results revealed that epicatechin gallate to be most effective. I also identified that short-term exposure to NNK and B[a]P resulted in elevation of reactive oxygen species, ERK pathway activation and induction of cell proliferation and DNA damage, which can be blocked by green tea catechins. Results in Part-IV describe the roles of properties and markers associated with stem-like cells and the epithelial to mesenchymal transition induced by chronic carcinogenesis and their suppression by green tea catechins and grape seed proanthocyanidin extract. The last section (Part-V) summarizes the findings with their importance and discusses future directions. Breast Cancer Environmental Carcinogenesis Dietary Prevention Cancer Stem Cell Epithelial-Mesenchymal Transition Cancer Biology Cell Biology Molecular Biology

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